research topics about medicine

77 interesting medical research topics for 2024

Last updated

25 November 2023

Reviewed by

Brittany Ferri, PhD, OTR/L

Medical research is the gateway to improved patient care and expanding our available treatment options. However, finding a relevant and compelling research topic can be challenging.

Use this article as a jumping-off point to select an interesting medical research topic for your next paper or clinical study.

• How to choose a medical research topic

When choosing a research topic , it’s essential to consider a couple of things. What topics interest you? What unanswered questions do you want to address? 

During the decision-making and brainstorming process, here are a few helpful tips to help you pick the right medical research topic:

Focus on a particular field of study

The best medical research is specific to a particular area. Generalized studies are often too broad to produce meaningful results, so we advise picking a specific niche early in the process. 

Maybe a certain topic interests you, or your industry knowledge reveals areas of need.

Look into commonly researched topics

Once you’ve chosen your research field, do some preliminary research. What have other academics done in their papers and projects? 

From this list, you can focus on specific topics that interest you without accidentally creating a copycat project. This groundwork will also help you uncover any literature gaps—those may be beneficial areas for research.

Get curious and ask questions

Now you can get curious. Ask questions that start with why, how, or what. These questions are the starting point of your project design and will act as your guiding light throughout the process. 

For example: 

What impact does pollution have on children’s lung function in inner-city neighborhoods? 

Why is pollution-based asthma on the rise? 

How can we address pollution-induced asthma in young children? 

• 77 medical research topics worth exploring in 2023

Need some research inspiration for your upcoming paper or clinical study? We’ve compiled a list of 77 topical and in-demand medical research ideas. Let’s take a look. 

• Exciting new medical research topics

If you want to study cutting-edge topics, here are some exciting options:

COVID-19 and long COVID symptoms

Since 2020, COVID-19 has been a hot-button topic in medicine, along with the long-term symptoms in those with a history of COVID-19. 

Examples of COVID-19-related research topics worth exploring include:

The long-term impact of COVID-19 on cardiac and respiratory health

COVID-19 vaccination rates

The evolution of COVID-19 symptoms over time

New variants and strains of the COVID-19 virus

Changes in social behavior and public health regulations amid COVID-19

Vaccinations

Finding ways to cure or reduce the disease burden of chronic infectious diseases is a crucial research area. Vaccination is a powerful option and a great topic to research. 

Examples of vaccination-related research topics include:

mRNA vaccines for viral infections

Biomaterial vaccination capabilities

Vaccination rates based on location, ethnicity, or age

Public opinion about vaccination safety 

Artificial tissues fabrication

With the need for donor organs increasing, finding ways to fabricate artificial bioactive tissues (and possibly organs) is a popular research area. 

Examples of artificial tissue-related research topics you can study include:

The viability of artificially printed tissues

Tissue substrate and building block material studies

The ethics and efficacy of artificial tissue creation

• Medical research topics for medical students

For many medical students, research is a big driver for entering healthcare. If you’re a medical student looking for a research topic, here are some great ideas to work from:

Sleep disorders

Poor sleep quality is a growing problem, and it can significantly impact a person’s overall health. 

Examples of sleep disorder-related research topics include:

How stress affects sleep quality

The prevalence and impact of insomnia on patients with mental health conditions

Possible triggers for sleep disorder development

The impact of poor sleep quality on psychological and physical health

How melatonin supplements impact sleep quality

Alzheimer’s and dementia 

Cognitive conditions like dementia and Alzheimer’s disease are on the rise worldwide. They currently have no cure. As a result, research about these topics is in high demand. 

Examples of dementia-related research topics you could explore include:

The prevalence of Alzheimer’s disease in a chosen population

Early onset symptoms of dementia

Possible triggers or causes of cognitive decline with age

Treatment options for dementia-like conditions

The mental and physical burden of caregiving for patients with dementia

• Lifestyle habits and public health

Modern lifestyles have profoundly impacted the average person’s daily habits, and plenty of interesting topics explore its effects. 

Examples of lifestyle and public health-related research topics include:

The nutritional intake of college students

The impact of chronic work stress on overall health

The rise of upper back and neck pain from laptop use

Prevalence and cause of repetitive strain injuries (RSI)

• Controversial medical research paper topics

Medical research is a hotbed of controversial topics, content, and areas of study. 

If you want to explore a more niche (and attention-grabbing) concept, here are some controversial medical research topics worth looking into:

The benefits and risks of medical cannabis

Depending on where you live, the legalization and use of cannabis for medical conditions is controversial for the general public and healthcare providers.

Examples of medical cannabis-related research topics that might grab your attention include:

The legalization process of medical cannabis

The impact of cannabis use on developmental milestones in youth users

Cannabis and mental health diagnoses

CBD’s impact on chronic pain

Prevalence of cannabis use in young people

The impact of maternal cannabis use on fetal development 

Understanding how THC impacts cognitive function

Human genetics

The Human Genome Project identified, mapped, and sequenced all human DNA genes. Its completion in 2003 opened up a world of exciting and controversial studies in human genetics.

Examples of human genetics-related research topics worth delving into include:

Medical genetics and the incidence of genetic-based health disorders

Behavioral genetics differences between identical twins

Genetic risk factors for neurodegenerative disorders

Machine learning technologies for genetic research

Sexual health studies

Human sexuality and sexual health are important (yet often stigmatized) medical topics that need new research and analysis.

As a diverse field ranging from sexual orientation studies to sexual pathophysiology, examples of sexual health-related research topics include:

The incidence of sexually transmitted infections within a chosen population

Mental health conditions within the LGBTQIA+ community

The impact of untreated sexually transmitted infections

Access to safe sex resources (condoms, dental dams, etc.) in rural areas

• Health and wellness research topics

Human wellness and health are trendy topics in modern medicine as more people are interested in finding natural ways to live healthier lifestyles. 

If this field of study interests you, here are some big topics in the wellness space:

Gluten sensitivity

Gluten allergies and intolerances have risen over the past few decades. If you’re interested in exploring this topic, your options range in severity from mild gastrointestinal symptoms to full-blown anaphylaxis. 

Some examples of gluten sensitivity-related research topics include:

The pathophysiology and incidence of Celiac disease

Early onset symptoms of gluten intolerance

The prevalence of gluten allergies within a set population

Gluten allergies and the incidence of other gastrointestinal health conditions

Pollution and lung health

Living in large urban cities means regular exposure to high levels of pollutants. 

As more people become interested in protecting their lung health, examples of impactful lung health and pollution-related research topics include:

The extent of pollution in densely packed urban areas

The prevalence of pollution-based asthma in a set population

Lung capacity and function in young people

The benefits and risks of steroid therapy for asthma

Pollution risks based on geographical location

Plant-based diets

Plant-based diets like vegan and paleo diets are emerging trends in healthcare due to their limited supporting research. 

If you’re interested in learning more about the potential benefits or risks of holistic, diet-based medicine, examples of plant-based diet research topics to explore include:

Vegan and plant-based diets as part of disease management

Potential risks and benefits of specific plant-based diets

Plant-based diets and their impact on body mass index

The effect of diet and lifestyle on chronic disease management

Health supplements

Supplements are a multi-billion dollar industry. Many health-conscious people take supplements, including vitamins, minerals, herbal medicine, and more. 

Examples of health supplement-related research topics worth investigating include:

Omega-3 fish oil safety and efficacy for cardiac patients

The benefits and risks of regular vitamin D supplementation

Health supplementation regulation and product quality

The impact of social influencer marketing on consumer supplement practices

Analyzing added ingredients in protein powders

• Healthcare research topics

Working within the healthcare industry means you have insider knowledge and opportunity. Maybe you’d like to research the overall system, administration, and inherent biases that disrupt access to quality care. 

While these topics are essential to explore, it is important to note that these studies usually require approval and oversight from an Institutional Review Board (IRB). This ensures the study is ethical and does not harm any subjects. 

For this reason, the IRB sets protocols that require additional planning, so consider this when mapping out your study’s timeline. 

Here are some examples of trending healthcare research areas worth pursuing:

The pros and cons of electronic health records

The rise of electronic healthcare charting and records has forever changed how medical professionals and patients interact with their health data. 

Examples of electronic health record-related research topics include:

The number of medication errors reported during a software switch

Nurse sentiment analysis of electronic charting practices

Ethical and legal studies into encrypting and storing personal health data

Inequities within healthcare access

Many barriers inhibit people from accessing the quality medical care they need. These issues result in health disparities and injustices. 

Examples of research topics about health inequities include:

The impact of social determinants of health in a set population

Early and late-stage cancer stage diagnosis in urban vs. rural populations

Affordability of life-saving medications

Health insurance limitations and their impact on overall health

Diagnostic and treatment rates across ethnicities

People who belong to an ethnic minority are more likely to experience barriers and restrictions when trying to receive quality medical care. This is due to systemic healthcare racism and bias. 

As a result, diagnostic and treatment rates in minority populations are a hot-button field of research. Examples of ethnicity-based research topics include:

Cancer biopsy rates in BIPOC women

The prevalence of diabetes in Indigenous communities

Access inequalities in women’s health preventative screenings

The prevalence of undiagnosed hypertension in Black populations

• Pharmaceutical research topics

Large pharmaceutical companies are incredibly interested in investing in research to learn more about potential cures and treatments for diseases. 

If you’re interested in building a career in pharmaceutical research, here are a few examples of in-demand research topics:

Cancer treatment options

Clinical research is in high demand as pharmaceutical companies explore novel cancer treatment options outside of chemotherapy and radiation. 

Examples of cancer treatment-related research topics include:

Stem cell therapy for cancer

Oncogenic gene dysregulation and its impact on disease

Cancer-causing viral agents and their risks

Treatment efficacy based on early vs. late-stage cancer diagnosis

Cancer vaccines and targeted therapies

Immunotherapy for cancer

Pain medication alternatives

Historically, opioid medications were the primary treatment for short- and long-term pain. But, with the opioid epidemic getting worse, the need for alternative pain medications has never been more urgent. 

Examples of pain medication-related research topics include:

Opioid withdrawal symptoms and risks

Early signs of pain medication misuse

Anti-inflammatory medications for pain control

• Identify trends in your medical research with Dovetail

Are you interested in contributing life-changing research? Today’s medical research is part of the future of clinical patient care. 

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Explore the Best Medical and Health Research Topics Ideas

Table of contents

• 1 How to Choose Medical Research Paper Topics
• 2 New Medical Research Paper Topics
• 3 Medical Research Topics for College Students
• 4 Controversial Medical Topics for Research Paper
• 5 Health Research Topics
• 6 Medicine Research Topics
• 7 Healthcare Research Topics
• 8 Public Health Research Topics
• 9 Mental Health Research Paper Topics
• 10 Anatomy Research Topics
• 11 Biomedical Research Topics
• 12 Bioethics Research Topics
• 13 Cancer Research Topics
• 14 Clinical Research Topics
• 15 Critical Care Research Topics
• 16 Pediatric Research Topics
• 17 Dental Research Topics Ideas
• 18 Dermatology Research Topics
• 19 Primary Care Research Topics
• 20 Pharmaceutical Research Topics
• 21 Medical Anthropology Research Topics
• 22 Paramedic Research Paper Topics
• 23 Surgery Research Topics
• 24 Radiology Research Paper Topics
• 25 Anatomy and Physiology Research Paper Topics
• 26 Healthcare Management Research Paper Topics
• 27 Medical Ethics Research Paper Topics
• 28 Conclusion

In such a complex and broad field as medicine, writing an original and compelling research paper is a daunting task. From investigating public care concerns to cancer treatment studies, each student decides where his interests lie. Our goal is to help students find new angles to study and focus on relevant topics. With our resources, you can write an engaging and rigorous paper.

How to Choose Medical Research Paper Topics

Choosing good research paper topics is often more challenging than the writing process itself. You need to select a captivating subject matter that will grab the reader’s attention, showcase your knowledge of a specific field, help you progress in your studies, and perhaps even inspire future research.

To accomplish that, you need to start with brainstorming, followed by thorough research. Here are some great tips to follow:

• Pick an interesting topic – The key is to pick something that you find interesting, and yet make sure it’s not too general or too narrow. It should allow you to delve deep into the subject matter and show that you’re a professional who is ready to take on a challenge when it comes to your chosen field of medicine.
• Narrow down your focus – Once you have a list of potential topics, sift through recent medical research papers to get up-to-date with the latest trends, developments, and issues in medicine and healthcare. Check out textbooks, news articles, and other relevant sources for more information related to your potential topics. If a particular condition or disease interests you (perhaps something that drew you to a career in medicine), there’s your cue for narrowing down your topic.
• Pinpoint the “why,” “how,” and “what” – Whether you are looking into nutrition research paper topics , controversial medical topics, nursing research topics, or anything in-between, ask yourself why each of them is important. How could they contribute to the available medical studies, if any? What new information could they bring to improve the future of medicine? Asking these questions will help you pick the right medical research paper topic that suits you and helps you move forward and reach your aspirations.

To help you on that quest, we’ve compiled a list of topics that you could use or that might inspire you to come up with something unique. Let’s dive in.

New Medical Research Paper Topics

Are you interested in the newest and most interesting developments in medicine? We put hours of effort into identifying the current trends in health research so we could provide you with these examples of topics. Whether you hire a research paper writing service for students or write a paper by yourself, you need an appealing topic to focus on.

• Epidemics versus pandemics
• Child health care
• Medical humanitarian missions in the developing world
• Homoeopathic medicines – the placebo effect
• Virus infections – causes and treatment
• Is medical research on animals ethical
• Vaccination – dangers versus benefits
• Artificial tissues and organs
• Rare genetic diseases
• Brain injuries

Medical Research Topics for College Students

You don’t know where to start with your medical research paper? There are so many things you could write about that the greatest challenge is to narrow them down. This is why we decided to help.

• Antibiotics treatments
• Chronic diseases
• Palliative treatment
• Battling Alzheimer’s disease
• How modern lifestyle affects public health
• Professional diseases
• Sleep disorders
• Changes in physical and mental health due to aging
• Eating disorders
• Terminal diseases

Controversial Medical Topics for Research Paper

In healthcare, new discoveries can change people’s lives in the blink of an eye. This is also the reason why there are so many controversial topics in medicine, which involve anything from religion to ethics or social responsibility. Read on to discover our top controversial research topics.

• Implementing food standards
• Gluten allergy
• Assisted suicide for terminal patients
• Testing vaccines on animals – ethical concerns
• Moral responsibilities regarding cloning
• Marijuana legalization for medical purposes
• Abortion – medical approaches
• Vegan diets – benefits and dangers
• Increased life expectancy: a burden on the healthcare system?
• Circumcision effects

Health Research Topics

Students conducting health research struggle with finding good ideas related to their medical interests. If you want to write interesting college papers, you can select a good topic for our list.

• How environmental changes affect human health
• Deafness: communication disorders
• Household air pollution
• Diabetes – a public danger
• Coronaviruses
• Oral health assessment
• Tobacco and alcohol control
• Diseases caused by lack of physical exercise
• How urban pollution affects respiratory diseases
• Healthy diets

Medicine Research Topics

Regardless of the requirements in your research assignment, you can write about something that is both engaging and useful in your future career. Choose a topic from below.

• Causes for the increasing cancer cases
• Insulin resistance
• How terrorism affects mental health
• AIDS/HIV – latest developments
• Treating pregnant women versus non-pregnant women
• Latest innovations in medical instruments
• Genetic engineering
• Successful treatment of mental diseases
• Is autism a disease
• Natural coma versus artificial coma

Healthcare Research Topics

Healthcare research includes political and social aspects, besides medical. For college students who want to explore how medicine is affected by society’s values or principles, we provide examples of topics for papers. Select yours from the list below.

• Government investment in healthcare services in the EU versus the USA
• Inequalities in healthcare assistance and services
• Electronic health records systems – pros and cons
• Can asylums treat mental issues
• Health care for prison inmates
• Equipment for improving treatment of AIDS
• Correlation between economic development and health care services across countries
• Impact of smoking on organs
• Heart attacks – causes and effects
• Breast cancer – recent developments

Public Health Research Topics

For current examples of public health topics, browse our list. We provide only original, researchable examples for which you can easily find supporting data and evidence.

• Public versus private hospitals
• Health care professionals – management principles
• Surgery failures – who is responsible
• What legal responsibilities has the hospital administration
• Patient service quality in public versus private hospitals
• What benefits national health care systems have
• Estimated costs of cancer treatments
• Public health in developing countries
• Banning tobacco ads – importance for public health
• Government solutions to the anti-vaccine’s movement

Mental Health Research Paper Topics

Mental health is one of the most complex areas of medicine, where things are never as clear as with other medical issues. This increases the research potential of the field with plenty of topics left for debate.

• Causes of anxiety disorders
• Bulimia versus anorexia
• Childhood trauma
• Mental health public policies
• Postpartum Depression
• Posttraumatic Stress Disorder
• Seasonal Affective Disorder
• Schizophrenia

Anatomy Research Topics

Anatomy covers everything about the human body and how it works. If you find that intriguing and want to pay for medical research paper, start by selecting a topic.

• Chemotherapy: how it affects the body
• Thyroid glands – functions in the body
• Human endocrine system
• Heart diseases
• How does the human muscular system develop
• Lymphatic system – importance
• Investigating genetic diseases
• Digestive system

Biomedical Research Topics

Biology and medicine often work together. For the newest changes in the biomedical field, check our topics.

• Alzheimer’s disease – paths for treatment
• Vaccines and drug development in the treatment of Ebola
• Antibiotic resistance
• Biological effects caused by aging
• Air pollution effects on health
• Infectious disease past versus present
• Regenerative medicine
• Biomedical diagnostics
• Biomedical technology

Bioethics Research Topics

A controversial area of medicine, bioethics is where you get the chance to add personal input to a research topic and come up with new insights. You could consider these subjects.

• Organ donation
• Alternative or complementary medicine
• Assisted suicide or the right to die
• Artificial insemination or surrogacy
• Chemical and biological warfare
• Contraception
• Environmental bioethics
• In Vitro fertilization

Cancer Research Topics

Are you writing a paper related to cancer causes, diagnosis, treatment or effects? Look below for a hot topic that it’s easy to research and important for medical advance.

• Ability of immune system cells to fight cancer
• Computational oncology
• Metastasis affected by drug resistance
• Stem cells – applications for cancer treatment
• Tumor microenvironment
• Obesity and age in cancer occurrence
• Early cancer detection – benefits
• Artificial intelligence predicting cancer
• Hematologic malignancies
• Pathogen-related cancers

Clinical Research Topics

Learn more about clinical medicine by conducting more in-depth research. We prepared for you a list of relevant issues to touch upon.

• Ethical concerns regarding research on human subjects
• Subject recruitment
• Budget preparation
• Human subject protection
• Clinical trials – financial support
• Clinical practices for health professionals
• Using vulnerable populations in clinical research
• Quality assurance in clinical research
• Academic clinical trials versus clinical trials units
• Data collection and management

Critical Care Research Topics

Critical care is a key area in medical studies. Explore these topics in your research paper to gain more valuable knowledge in this field. You can also get in contact with nursing research paper writers .

• Obesity and asthma – clinical manifestations
• Chronic obstructive pulmonary disease
• Rhythm analysis for cardiac arrest
• Traumatic brain injury – fluid resuscitation
• Hydrocortisone for multiple trauma patients
• Care and nutrition for critically ill adults
• Diagnosis of hypersensitivity pneumonitis
• Coma and sedation scales
• Artificial airways suctioning
• Arterial puncture and arterial line

Pediatric Research Topics

Any topic that refers to health care for children, pregnant women, mothers, and adolescents goes under pediatric care.

• Attention deficit hyperactivity disorder (ADHD)
• Congenital heart disease in newborns
• Adolescent medicine
• Neonatal medicine
• Rare diseases in children and teenagers
• Obesity and weight fluctuations
• Behavioral sleep problems in children
• Children with anemia

Dental Research Topics Ideas

Choose a topic on oral health or dental care from this list of the most interesting topics in the field.

• How smoking affects oral health
• Children’s risk for dental caries
• Dental anxiety
• Types of dental materials – new advances
• Bad breath bacteria
• How diabetes affects oral health
• Oral cancer
• Dental pain – types, causes
• Dental implants
• Oral health-related quality of life

Dermatology Research Topics

Find the best research topic for your dermatology paper among our examples.

• Atopic dermatitis
• Contact dermatitis
• Epidemiology behind uncommon skin disorders
• Cutaneous aging
• Risk factors of melanoma skin cancer
• Acne versus rosacea
• Genetic testing for skin conditions
• Effects of cosmetic agents on skin health
• Improving skin barrier with pharmaceutical agents
• Skin manifestations of autoimmune disorders

Primary Care Research Topics

Write a primary care paper that can demonstrate your research skills and interest in powerful scientific findings.

• Primary care for vulnerable/uninsured populations
• Interpersonal continuity in care treatment
• How primary care contributes to health systems
• Primary care delivery models
• Developments in family medicine
• Occupational/environmental health
• Pharmacotherapy approaches
• Formal allergy testing
• Oral contraception side effects
• Dietary or behavioral interventions for obesity management

Pharmaceutical Research Topics

Pharma students who need paper topics can use one from our list. We include all things related to pharmacy life.

• Drugs that can treat cancer
• Drug excretion
• Elimination rate constant
• Inflammatory stress drug treatment
• Aspirin poising
• Ibuprofen – dangers versus benefits
• Toxicodynamics
• Opioid use disorder
• Pharmacotherapy for schizophrenia
• Ketamine in depression treatment

Medical Anthropology Research Topics

Medical anthropology unites different areas of human knowledge. Find powerful ideas for a paper below.

• Cultural contexts regarding reproductive health
• Women sexuality
• Anthropological aspects of health care
• Contributions of social sciences to public health
• Euthanasia and medical ethics across cultures
• Health-related behavior in adults across cultures
• Transcultural nursing
• Forensic psychiatry
• Symptoms of Celiac Disease – a disease with no symptoms
• Nursing ethics

Paramedic Research Paper Topics

Topics for paramedic research must be based on evidence, data, statistics, or practical experience. Just like ours.

• Trends and statistics in EMS
• Disaster medicine
• Mass casualties
• Pandemics and epidemics
• Infection control
• Basic versus advanced life support
• Scene safety in EMS
• Shock management
• Motor vehicle accidents

Surgery Research Topics

Discover all the intricacies of surgeries that save lives by writing about our topics.

• Medical malpractice and legal issues
• Methicillin-resistant Staphylococcus aureus
• Pain management
• Perioperative nursing
• Wound management
• Colorectal cancer surgery
• Breast cancer surgery
• Minimally invasive surgeries
• Vascular disease

Radiology Research Paper Topics

Find a radiology topic related to your academic interests to write a successful paper.

• Using MRI to diagnose hepatic focal lesions
• Multidetector computer tomography
• Ultrasound elastography in breast cancer
• Assessing traumatic spinal cord injuries with MRI diffusion tensor imaging
• Sonographic imaging to detect male infertility
• Role of tomography in diagnosing cancer
• Brain tumor surgery with magnetic resonance imaging
• Bacterial meningitis imaging

Anatomy and Physiology Research Paper Topics

Any ideas for a medical research paper? We have included the most important topics for an anatomy and physiology paper.

• What role has the endocrine system
• Staphylococcus aureus
• Environmental factors that affect development of human muscular system
• What role has the lymphatic system
• An investigation of genetic diseases
• Explaining the aging process
• The digestive tract
• Effects of stress on cells and muscles
• Evolution of the human nervous system
• What role has the cardiovascular system

Healthcare Management Research Paper Topics

There are numerous topics you could write about when it comes to healthcare management. There’s a wide range of options to pick, from infrastructure, staff, and financial management to HR and patient management. Here are some of the top healthcare management research paper options.

• Medical talent acquisition and retention
• Best methods for enhancing preventative care measures
• The role of telemedicine in reinventing healthcare management
• Patient care and the ability to pay for healthcare
• Mid-level healthcare providers in the emergency department
• The opioid crisis: policies and programs
• Urgent care and walk-in clinics
• Hospital emergency management plan during an epidemic
• Hospital records management and patient privacy
• Financial crises: challenges and opportunities

Medical Ethics Research Paper Topics

Medical ethics is a field that opens the door to numerous compelling topics for research papers. Here are some of the most appealing ones you could tackle.

• Clinical research on humans
• Vaccines and immunization
• Religious beliefs in healthcare
• Euthanasia and physician-assisted suicide
• Ethical issues across cultures
• Amniocentesis or prenatal birth defect testing
• Medical malpractice and going back to work
• Racial and ethnic preferences and perceptions in organ donations
• Racial and ethnic disparities in healthcare
• Ethical concerns of AI in healthcare

If you need further assistance with your medical research paper, PapersOwl is here for you. Our expert writers can provide you with top-notch research and help you write an impressive paper. Contact us anytime, pick your writer, tell them more about your topic, and get a unique, plagiarism-free research paper with impeccable grammar and formatting.

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Research Topics & Ideas: Healthcare

100+ Healthcare Research Topic Ideas To Fast-Track Your Project

Finding and choosing a strong research topic is the critical first step when it comes to crafting a high-quality dissertation, thesis or research project. If you’ve landed on this post, chances are you’re looking for a healthcare-related research topic , but aren’t sure where to start. Here, we’ll explore a variety of healthcare-related research ideas and topic thought-starters across a range of healthcare fields, including allopathic and alternative medicine, dentistry, physical therapy, optometry, pharmacology and public health.

NB – This is just the start…

The topic ideation and evaluation process has multiple steps . In this post, we’ll kickstart the process by sharing some research topic ideas within the healthcare domain. This is the starting point, but to develop a well-defined research topic, you’ll need to identify a clear and convincing research gap , along with a well-justified plan of action to fill that gap.

If you’re new to the oftentimes perplexing world of research, or if this is your first time undertaking a formal academic research project, be sure to check out our free dissertation mini-course. In it, we cover the process of writing a dissertation or thesis from start to end. Be sure to also sign up for our free webinar that explores how to find a high-quality research topic.

Overview: Healthcare Research Topics

• Allopathic medicine
• Alternative /complementary medicine
• Veterinary medicine
• Physical therapy/ rehab
• Optometry and ophthalmology
• Pharmacy and pharmacology
• Public health
• Examples of healthcare-related dissertations

Allopathic (Conventional) Medicine

• The effectiveness of telemedicine in remote elderly patient care
• The impact of stress on the immune system of cancer patients
• The effects of a plant-based diet on chronic diseases such as diabetes
• The use of AI in early cancer diagnosis and treatment
• The role of the gut microbiome in mental health conditions such as depression and anxiety
• The efficacy of mindfulness meditation in reducing chronic pain: A systematic review
• The benefits and drawbacks of electronic health records in a developing country
• The effects of environmental pollution on breast milk quality
• The use of personalized medicine in treating genetic disorders
• The impact of social determinants of health on chronic diseases in Asia
• The role of high-intensity interval training in improving cardiovascular health
• The efficacy of using probiotics for gut health in pregnant women
• The impact of poor sleep on the treatment of chronic illnesses
• The role of inflammation in the development of chronic diseases such as lupus
• The effectiveness of physiotherapy in pain control post-surgery

Topics & Ideas: Alternative Medicine

• The benefits of herbal medicine in treating young asthma patients
• The use of acupuncture in treating infertility in women over 40 years of age
• The effectiveness of homoeopathy in treating mental health disorders: A systematic review
• The role of aromatherapy in reducing stress and anxiety post-surgery
• The impact of mindfulness meditation on reducing high blood pressure
• The use of chiropractic therapy in treating back pain of pregnant women
• The efficacy of traditional Chinese medicine such as Shun-Qi-Tong-Xie (SQTX) in treating digestive disorders in China
• The impact of yoga on physical and mental health in adolescents
• The benefits of hydrotherapy in treating musculoskeletal disorders such as tendinitis
• The role of Reiki in promoting healing and relaxation post birth
• The effectiveness of naturopathy in treating skin conditions such as eczema
• The use of deep tissue massage therapy in reducing chronic pain in amputees
• The impact of tai chi on the treatment of anxiety and depression
• The benefits of reflexology in treating stress, anxiety and chronic fatigue
• The role of acupuncture in the prophylactic management of headaches and migraines

Topics & Ideas: Dentistry

• The impact of sugar consumption on the oral health of infants
• The use of digital dentistry in improving patient care: A systematic review
• The efficacy of orthodontic treatments in correcting bite problems in adults
• The role of dental hygiene in preventing gum disease in patients with dental bridges
• The impact of smoking on oral health and tobacco cessation support from UK dentists
• The benefits of dental implants in restoring missing teeth in adolescents
• The use of lasers in dental procedures such as root canals
• The efficacy of root canal treatment using high-frequency electric pulses in saving infected teeth
• The role of fluoride in promoting remineralization and slowing down demineralization
• The impact of stress-induced reflux on oral health
• The benefits of dental crowns in restoring damaged teeth in elderly patients
• The use of sedation dentistry in managing dental anxiety in children
• The efficacy of teeth whitening treatments in improving dental aesthetics in patients with braces
• The role of orthodontic appliances in improving well-being
• The impact of periodontal disease on overall health and chronic illnesses

Tops & Ideas: Veterinary Medicine

• The impact of nutrition on broiler chicken production
• The role of vaccines in disease prevention in horses
• The importance of parasite control in animal health in piggeries
• The impact of animal behaviour on welfare in the dairy industry
• The effects of environmental pollution on the health of cattle
• The role of veterinary technology such as MRI in animal care
• The importance of pain management in post-surgery health outcomes
• The impact of genetics on animal health and disease in layer chickens
• The effectiveness of alternative therapies in veterinary medicine: A systematic review
• The role of veterinary medicine in public health: A case study of the COVID-19 pandemic
• The impact of climate change on animal health and infectious diseases in animals
• The importance of animal welfare in veterinary medicine and sustainable agriculture
• The effects of the human-animal bond on canine health
• The role of veterinary medicine in conservation efforts: A case study of Rhinoceros poaching in Africa
• The impact of veterinary research of new vaccines on animal health

Topics & Ideas: Physical Therapy/Rehab

• The efficacy of aquatic therapy in improving joint mobility and strength in polio patients
• The impact of telerehabilitation on patient outcomes in Germany
• The effect of kinesiotaping on reducing knee pain and improving function in individuals with chronic pain
• A comparison of manual therapy and yoga exercise therapy in the management of low back pain
• The use of wearable technology in physical rehabilitation and the impact on patient adherence to a rehabilitation plan
• The impact of mindfulness-based interventions in physical therapy in adolescents
• The effects of resistance training on individuals with Parkinson’s disease
• The role of hydrotherapy in the management of fibromyalgia
• The impact of cognitive-behavioural therapy in physical rehabilitation for individuals with chronic pain
• The use of virtual reality in physical rehabilitation of sports injuries
• The effects of electrical stimulation on muscle function and strength in athletes
• The role of physical therapy in the management of stroke recovery: A systematic review
• The impact of pilates on mental health in individuals with depression
• The use of thermal modalities in physical therapy and its effectiveness in reducing pain and inflammation
• The effect of strength training on balance and gait in elderly patients

Topics & Ideas: Optometry & Opthalmology

• The impact of screen time on the vision and ocular health of children under the age of 5
• The effects of blue light exposure from digital devices on ocular health
• The role of dietary interventions, such as the intake of whole grains, in the management of age-related macular degeneration
• The use of telemedicine in optometry and ophthalmology in the UK
• The impact of myopia control interventions on African American children’s vision
• The use of contact lenses in the management of dry eye syndrome: different treatment options
• The effects of visual rehabilitation in individuals with traumatic brain injury
• The role of low vision rehabilitation in individuals with age-related vision loss: challenges and solutions
• The impact of environmental air pollution on ocular health
• The effectiveness of orthokeratology in myopia control compared to contact lenses
• The role of dietary supplements, such as omega-3 fatty acids, in ocular health
• The effects of ultraviolet radiation exposure from tanning beds on ocular health
• The impact of computer vision syndrome on long-term visual function
• The use of novel diagnostic tools in optometry and ophthalmology in developing countries
• The effects of virtual reality on visual perception and ocular health: an examination of dry eye syndrome and neurologic symptoms

Topics & Ideas: Pharmacy & Pharmacology

• The impact of medication adherence on patient outcomes in cystic fibrosis
• The use of personalized medicine in the management of chronic diseases such as Alzheimer’s disease
• The effects of pharmacogenomics on drug response and toxicity in cancer patients
• The role of pharmacists in the management of chronic pain in primary care
• The impact of drug-drug interactions on patient mental health outcomes
• The use of telepharmacy in healthcare: Present status and future potential
• The effects of herbal and dietary supplements on drug efficacy and toxicity
• The role of pharmacists in the management of type 1 diabetes
• The impact of medication errors on patient outcomes and satisfaction
• The use of technology in medication management in the USA
• The effects of smoking on drug metabolism and pharmacokinetics: A case study of clozapine
• Leveraging the role of pharmacists in preventing and managing opioid use disorder
• The impact of the opioid epidemic on public health in a developing country
• The use of biosimilars in the management of the skin condition psoriasis
• The effects of the Affordable Care Act on medication utilization and patient outcomes in African Americans

Topics & Ideas: Public Health

• The impact of the built environment and urbanisation on physical activity and obesity
• The effects of food insecurity on health outcomes in Zimbabwe
• The role of community-based participatory research in addressing health disparities
• The impact of social determinants of health, such as racism, on population health
• The effects of heat waves on public health
• The role of telehealth in addressing healthcare access and equity in South America
• The impact of gun violence on public health in South Africa
• The effects of chlorofluorocarbons air pollution on respiratory health
• The role of public health interventions in reducing health disparities in the USA
• The impact of the United States Affordable Care Act on access to healthcare and health outcomes
• The effects of water insecurity on health outcomes in the Middle East
• The role of community health workers in addressing healthcare access and equity in low-income countries
• The impact of mass incarceration on public health and behavioural health of a community
• The effects of floods on public health and healthcare systems
• The role of social media in public health communication and behaviour change in adolescents

Examples: Healthcare Dissertation & Theses

While the ideas we’ve presented above are a decent starting point for finding a healthcare-related research topic, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses to see how this all comes together.

Below, we’ve included a selection of research projects from various healthcare-related degree programs to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

• Improving Follow-Up Care for Homeless Populations in North County San Diego (Sanchez, 2021)
• On the Incentives of Medicare’s Hospital Reimbursement and an Examination of Exchangeability (Elzinga, 2016)
• Managing the healthcare crisis: the career narratives of nurses (Krueger, 2021)
• Methods for preventing central line-associated bloodstream infection in pediatric haematology-oncology patients: A systematic literature review (Balkan, 2020)
• Farms in Healthcare: Enhancing Knowledge, Sharing, and Collaboration (Garramone, 2019)
• When machine learning meets healthcare: towards knowledge incorporation in multimodal healthcare analytics (Yuan, 2020)
• Integrated behavioural healthcare: The future of rural mental health (Fox, 2019)
• Healthcare service use patterns among autistic adults: A systematic review with narrative synthesis (Gilmore, 2021)
• Mindfulness-Based Interventions: Combatting Burnout and Compassionate Fatigue among Mental Health Caregivers (Lundquist, 2022)
• Transgender and gender-diverse people’s perceptions of gender-inclusive healthcare access and associated hope for the future (Wille, 2021)
• Efficient Neural Network Synthesis and Its Application in Smart Healthcare (Hassantabar, 2022)
• The Experience of Female Veterans and Health-Seeking Behaviors (Switzer, 2022)
• Machine learning applications towards risk prediction and cost forecasting in healthcare (Singh, 2022)
• Does Variation in the Nursing Home Inspection Process Explain Disparity in Regulatory Outcomes? (Fox, 2020)

Looking at these titles, you can probably pick up that the research topics here are quite specific and narrowly-focused , compared to the generic ones presented earlier. This is an important thing to keep in mind as you develop your own research topic. That is to say, to create a top-notch research topic, you must be precise and target a specific context with specific variables of interest . In other words, you need to identify a clear, well-justified research gap.

Need more help?

If you’re still feeling a bit unsure about how to find a research topic for your healthcare dissertation or thesis, check out Topic Kickstarter service below.

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15 Comments

I need topics that will match the Msc program am running in healthcare research please

Hello Mabel,

I can help you with a good topic, kindly provide your email let’s have a good discussion on this.

Can you provide some research topics and ideas on Immunology?

Thank you to create new knowledge on research problem verse research topic

Help on problem statement on teen pregnancy

This post might be useful: https://gradcoach.com/research-problem-statement/

can you provide me with a research topic on healthcare related topics to a qqi level 5 student

Please can someone help me with research topics in public health ?

Hello I have requirement of Health related latest research issue/topics for my social media speeches. If possible pls share health issues , diagnosis, treatment.

I would like a topic thought around first-line support for Gender-Based Violence for survivors or one related to prevention of Gender-Based Violence

Please can I be helped with a master’s research topic in either chemical pathology or hematology or immunology? thanks

Can u please provide me with a research topic on occupational health and safety at the health sector

Good day kindly help provide me with Ph.D. Public health topics on Reproductive and Maternal Health, interventional studies on Health Education

may you assist me with a good easy healthcare administration study topic

May you assist me in finding a research topic on nutrition,physical activity and obesity. On the impact on children

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Nih research matters.

December 22, 2021

2021 Research Highlights — Promising Medical Findings

Results with potential for enhancing human health.

With NIH support, scientists across the United States and around the world conduct wide-ranging research to discover ways to enhance health, lengthen life, and reduce illness and disability. Groundbreaking NIH-funded research often receives top scientific honors. In 2021, these honors included Nobel Prizes to five NIH-supported scientists . Here’s just a small sample of the NIH-supported research accomplishments in 2021.

Printer-friendly version of full 2021 NIH Research Highlights

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Advancing COVID-19 treatment and prevention

Amid the sustained pandemic, researchers continued to develop new drugs and vaccines for COVID-19. They found oral drugs that could  inhibit virus replication in hamsters and shut down a key enzyme that the virus needs to replicate. Both drugs are currently in clinical trials. Another drug effectively treated both SARS-CoV-2 and RSV, another serious respiratory virus, in animals. Other researchers used an airway-on-a-chip to screen approved drugs for use against COVID-19. These studies identified oral drugs that could be administered outside of clinical settings. Such drugs could become powerful tools for fighting the ongoing pandemic. Also in development are an intranasal vaccine , which could help prevent virus transmission, and vaccines that can protect against a range of coronaviruses .

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Developments in Alzheimer’s disease research

One of the hallmarks of Alzheimer’s is an abnormal buildup of amyloid-beta protein. A study in mice suggests that antibody therapies targeting amyloid-beta protein could be more effective after enhancing the brain’s waste drainage system . In another study, irisin, an exercise-induced hormone, was found to improve cognitive performance in mice . New approaches also found two approved drugs (described below) with promise for treating AD. These findings point to potential strategies for treating Alzheimer’s. Meanwhile, researchers found that people who slept six hours or less per night in their 50s and 60s were more likely to develop dementia later in life, suggesting that inadequate sleep duration could increase dementia risk.

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New uses for old drugs

Developing new drugs can be costly, and the odds of success can be slim. So, some researchers have turned to repurposing drugs that are already approved for other conditions. Scientists found that two FDA-approved drugs were associated with lower rates of Alzheimer’s disease. One is used for high blood pressure and swelling. The other is FDA-approved to treat erectile dysfunction and pulmonary hypertension. Meanwhile, the antidepressant fluoxetine was associated with reduced risk of age-related macular degeneration. Clinical trials will be needed to confirm these drugs’ effects.

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Making a wireless, biodegradable pacemaker

Pacemakers are a vital part of medical care for many people with heart rhythm disorders. Temporary pacemakers currently use wires connected to a power source outside the body. Researchers developed a temporary pacemaker that is powered wirelessly. It also breaks down harmlessly in the body after use. Studies showed that the device can generate enough power to pace a human heart without causing damage or inflammation.

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Fungi may impair wound healing in Crohn’s disease

Inflammatory bowel disease develops when immune cells in the gut overreact to a perceived threat to the body. It’s thought that the microbiome plays a role in this process. Researchers found that a fungus called  Debaryomyces hansenii  impaired gut wound healing in mice and was also found in damaged gut tissue in people with Crohn’s disease, a type of inflammatory bowel disease. Blocking this microbe might encourage tissue repair in Crohn’s disease.

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Nanoparticle-based flu vaccine

Influenza, or flu, kills an estimated 290,000-650,000 people each year worldwide. The flu virus changes, or mutates, quickly. A single vaccine that conferred protection against a wide variety of strains would provide a major boost to global health. Researchers developed a nanoparticle-based vaccine that protected against a broad range of flu virus strains in animals. The vaccine may prevent flu more effectively than current seasonal vaccines. Researchers are planning a Phase 1 clinical trial to test the vaccine in people.

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A targeted antibiotic for treating Lyme disease

Lyme disease cases are becoming more frequent and widespread. Current treatment entails the use of broad-spectrum antibiotics. But these drugs can damage the patient’s gut microbiome and select for resistance in non-target bacteria. Researchers found that a neglected antibiotic called hygromycin A selectively kills the bacteria that cause Lyme disease. The antibiotic was able to treat Lyme disease in mice without disrupting the microbiome and could make an attractive therapeutic candidate.

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Retraining the brain to treat chronic pain

More than 25 million people in the U.S. live with chronic pain. After a treatment called pain reprocessing therapy, two-thirds of people with mild or moderate chronic back pain for which no physical cause could be found were mostly or completely pain-free. The findings suggest that people can learn to reduce the brain activity causing some types of chronic pain that occur in the absence of injury or persist after healing.

2021 Research Highlights — Basic Research Insights >>

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Last Reviewed: February 22, 2024

MARK H. EBELL, MD, MS, AND ROLAND GRAD, MD, MSc

June 8, 2020 Editor's Note: The hypertension study (reference 5) is under investigation by the editor of the journal in which it was published due to inconsistencies in the data noted by others. Caution is warranted regarding applying these findings to clinical care.

Am Fam Physician. 2020;101(10):608-617

Author disclosure: Dr. Ebell is cofounder and editor-in-chief of Essential Evidence Plus. See Editor's Note . Dr. Grad has no relevant financial affiliations.

In 2019, regular surveillance of 110 English-language research journals identified 254 studies that met the criteria to become POEMs (patient-oriented evidence that matters). Physician members of the Canadian Medical Association rated these POEMs for their relevance to patients in their practices. This article summarizes the clinical questions and bottom-line answers from the top 20 POEMs of 2019. Taking blood pressure medications at night results in a large mortality reduction over six years compared with morning dosing. Automated devices are the best way to measure blood pressure. Nonfasting lipid profiles are preferred over fasting lipid profiles, and nonfasting and fasting lipid profiles are equally effective at predicting risk. The benefit of statins for primary prevention in people 75 years and older is uncertain at best. Aspirin has no net benefit for primary prevention of cardiovascular disease and has no effect on cancer outcomes. An Italian study found fecal immunochemical testing over five biennial screening cycles has a similar colorectal cancer yield as screening colonoscopy, whereas a meta-analysis found that taking aspirin, an anticoagulant, or a nonsteroidal anti-inflammatory drug has no impact on the positive predictive value of fecal immunochemical testing. Regarding infections, a meta-analysis showed that patients presenting with symptoms of acute respiratory tract infection are unlikely to have pneumonia if vital signs and the lung examination findings are normal. For streptococcal pharyngitis (strep throat), penicillin V at a dosage of 800 mg four times a day for five days is at least as effective as a dosage of 1,000 mg three times a day for 10 days. A primary care study in the United Kingdom reinforced that clinicians should counsel parents of children with lower respiratory tract symptoms to be patient, because these infections can take three weeks or more to fully resolve. Among direct oral anticoagulants, apixaban has the lowest bleeding risk, and cotreating with a proton pump inhibitor significantly reduces bleeding risk. Single ibuprofen doses from 400 to 800 mg significantly reduce acute pain to a similar degree. The two-dose recombinant zoster vaccine is much more effective than the single-dose live, attenuated vaccine but with a greater risk of injection site pain. Exercise helps reduce the risk of falls in older adults. Practice guidelines from 2019 on antithrombotics for atrial fibrillation, the management of type 2 diabetes mellitus, and screening for breast cancer were judged to be especially relevant.

Every year for the past 21 years, a team of experts in evidence-based medicine have systematically reviewed more than 110 English-language research journals to identify the original research most likely to change and improve primary care practice. The team includes experts in family medicine, pharmacology, hospital medicine, and women's health. 1 , 2

The goal of this process is to identify POEMs (patient-oriented evidence that matters). A POEM must report at least one patient-oriented outcome, such as improvement in symptoms, morbidity, or mortality. It should also be free of important methodologic bias, making the results valid and trustworthy. Finally, if applied in practice, the results would change what some family physicians do in patient care by prompting them to adopt a beneficial new practice or discontinue one that is ineffective or harmful. This should improve patient outcomes. Of more than 20,000 research studies published in 2019 in the journals reviewed by the POEMs team, 254 met criteria for validity, relevance, and practice change.

The Canadian Medical Association (CMA) purchases a subscription to POEMs for its members, many of whom receive the daily POEM by email. When members read a POEM, they can rate it with a validated questionnaire called the Information Assessment Method. POEM ratings address the domains of clinical relevance, cognitive impact, use in practice, and expected health benefits if that POEM were to be applied in patient care. 3 , 4 In 2019, each of the 254 POEMs were rated by an average of 1,530 physicians.

In this article, we present the 20 POEMs rated highest for clinical relevance by CMA members in 2019. This installment of our annual series ( https://www.aafp.org/afp/toppoems ) summarizes the clinical question and bottom-line answer for each research study identified as a top 20 POEM, organized by topic and followed by a brief discussion. We also present the three most relevant practice guidelines identified by CMA members. The full text of the POEMs in this article are available at https://www.aafp.org/journals/afp/content/top-poems/2019.html .

Hypertension

Hypertension is among the most common conditions managed by primary care physicians and is the topic of the two POEMs rated most relevant to readers in 2019 ( Table 1 ) . 5 , 6 Researchers randomized 19,168 adults with hypertension to take their antihypertensive medications at bedtime or first thing in the morning. 5 Patients were prescribed an antihypertensive from an approved list of the most common therapies. Patients taking their medications at bedtime had a lower likelihood of the composite outcome of myocardial infarction (MI), coronary revascularization, heart failure, stroke, or cardiovascular death (hazard ratio = 0.55; 95% CI, 0.50 to 0.61; number needed to treat to prevent one event over 6.3 years = 20). All-cause mortality was reduced to a similar extent. This is a large effect for a six-year study, and a practice-changer for many patients and physicians. Best of all, it costs nothing to make this change. See Editor's Note

How we measure blood pressure continues to be a subject of research. The next POEM was a meta-analysis of 31 studies, which included a total of 9,279 patients and compared automated in-office blood pressure readings with in-office manual measurements or ambulatory automated recordings during waking hours (the reference standard). 6 Automated in-office measurements were performed without anyone present to activate the machine and used three to five readings separated by one- to two-minutes. Ambulatory automated measurements were 13.4/5.9 mm Hg lower than the manual in-office measurements and were similar to the in-office automated measurements. To avoid starting or intensifying antihypertensive medication unnecessarily, it is critical to measure blood pressure using an automated device. Patients should also bring in their home device so that it can be calibrated with the office device.

Behavioral Medicine

Behavioral medicine POEMs are summarized in Table 2 . 7 – 9 The first POEM in this group was a well-executed network meta-analysis of medical therapy for generalized anxiety disorder. 7 A network meta-analysis includes studies comparing drugs with each other and with placebo, allowing for direct and indirect comparisons. The meta-analysis included 89 studies involving 25,000 patients and 22 different drugs; none of the studies were longer than 26 weeks. After excluding drugs that were poorly tolerated such as quetiapine (Seroquel), paroxetine (Paxil), and benzodiazepines, the most effective commercially available drugs overall were, in order of effectiveness, bupropion (Wellbutrin), duloxetine (Cymbalta), mirtazapine (Remeron), hydroxyzine, sertraline (Zoloft), pregabalin (Lyrica), venlafaxine, escitalopram (Lexapro), fluoxetine (Prozac), buspirone (Buspar), and citalopram (Celexa). Drugs that did not significantly decrease anxiety scores included imipramine, maprotiline, opipramol (not available in the United States), tiagabine (Gabitril), vilazodone (Viibryd), and vortioxetine (Trintellix). The drugs with the best combination of effectiveness and tolerability were duloxetine, pregabalin, venlafaxine, and escitalopram.

The next POEM included videotaped encounters between 252 patients and 15 English primary care physicians. 8 Patients were asked about the main reason for their visit beforehand, and this reason was almost always addressed during the visit. However, of the 139 patients who identified at least one symptom in the previsit interview, 43 failed to disclose a total of 67 symptoms during the visit, most often stress, worries or sadness; tiredness or sleep problems; problems passing urine; headache; and intimate or other personal problems. Although physicians cannot ask every patient about all of their problems during a visit, it is important to know that patients may not fully disclose symptoms. Physicians should make patients feel as safe as possible while looking for cues to undisclosed symptoms, and routinely asking, “Is there anything else I can help you with?”

The last POEM in the behavioral medicine group was an individual patient data meta-analysis of how early treatment response impacts later outcomes in patients with depression. 9 The researchers combined the individual patient data from 30 randomized trials, with 2,184 patients receiving placebo and 6,058 receiving active therapy. After six weeks of treatment, about 50% of patients in the active treatment group responded to treatment, with 32% achieving remission of symptoms. Response was defined as at least a 50% reduction in the Hamilton Rating Scale for Depression score, and remission was defined as a score of 7 points or less. By 12 weeks, the response rate was 68% in the active treatment group, with 49% achieving remission. Patients with improvement at two weeks were more likely to respond by six weeks, whereas among patients without early improvement, 33% responded by six weeks and 43% by 12 weeks. The absence of an early response does not preclude later response; therefore, physicians should not be too quick to change antidepressant medications.

Cardiovascular

Cardiovascular medicine POEMs are summarized in Table 3 . 10 – 14 The first two POEMs in this group address statin use. Many physicians and laboratory staff continue to insist that patients be fasting for lipid profile testing. The first POEM compared fasting and nonfasting lipid profiles in the same patients four weeks apart. 10 There was little difference between fasting and nonfasting measurements of low-density and high-density lipoprotein cholesterol levels and only a small increase in triglyceride levels (25 mg per dL [0.28 mmol per L]) with nonfasting measurements. Most importantly, the association between lipid levels and subsequent cardiovascular events was identical for fasting and nonfasting lipid measurements. Guidelines support nonfasting lipid measurements. 15 , 16 It is time to simplify our patients' lives and educate local laboratory staff, who often turn away patients who disclose that they are not fasting.

In the next POEM, data were pooled from 28 randomized trials of statins with more than 186,000 total patients. 11 This report focused on the 14,000 patients who were 75 years or older; the median follow-up was five years. There was only a small reduction in the composite outcome of MI and cardiovascular death among all patients (2.6% with statins vs. 3.0% with placebo; number needed to treat = 250 per year); the benefit was significant only in patients with preexisting cardiovascular disease. Statins had no effect on revascularization, stroke, cancer incidence, or cancer mortality.

This was a big year for aspirin studies. The next three POEMs, from two separate trials, examine the benefits and harms of aspirin therapy for primary prevention in contemporary populations. Prior studies that found a net benefit of aspirin for the primary prevention of cardiovascular disease and cancer (mostly colorectal) all recruited patients before 2002. In more recent years, fewer patients smoke or have uncontrolled hypertension, more are taking a statin, and we have widespread colorectal cancer screening. In this context, does aspirin still have a role?

Two aspirin POEMs were from the ASPREE (Aspirin in Reducing Events in the Elderly) trial, which included 19,114 adults 70 years and older in the United States and Australia (65 and older if black or Hispanic). Patients without known cardiovascular disease were randomized to aspirin, 100 mg, or placebo and were followed for a median of 4.7 years. The first POEM found no significant reduction in the likelihood of cardiovascular disease with aspirin, including fatal cardiovascular disease, fatal or nonfatal MI, and fatal or nonfatal ischemic stroke. However, they found a significant increase in major hemorrhages with aspirin. 12 The second POEM from the ASPREE trial found no difference between groups for disability-free survival, defined as a composite of death, dementia, or persistent physical disability. 13 A separate report from the ASPREE investigators (not one of the top 20 POEMs) found an increase in all-cause mortality with aspirin, primarily due to a significant increase in cancer-specific mortality (3.1% vs. 2.3%).

The third aspirin POEM was from the ASCEND (A Study of Cardiovascular Events in Diabetes) trial and included 15,480 adults 40 years and older with diabetes mellitus but no known cardiovascular disease. The patients were randomized to aspirin, 100 mg, or placebo and were followed for a median of 7.4 years. 14 There was a reduction in the composite of nonfatal MI, nonfatal stroke, or cardiovascular death with aspirin, but a corresponding increase in major hemorrhage with no effect on cardiovascular or all-cause mortality.

What do we tell our patients? A recent meta-analysis compared trials of aspirin therapy that recruited patients from 1978 to 2002 with four large trials that recruited patients since 2005. 17 The newer studies showed fewer cardiovascular benefits and no reduction in cancer incidence or mortality with aspirin as primary prevention. Based on a meta-analysis of the four most recent studies with a total of 61,604 patients, for every 1,200 patients taking aspirin instead of placebo for five years, there would be four fewer major cardiovascular events and three fewer ischemic strokes but eight more major hemorrhages, including three more intracranial hemorrhages. This study agrees with recent European guidelines that no longer recommend aspirin for primary prevention. 18 The 2016 U.S. Preventive Services Task Force (USPSTF) and 2019 American College of Cardiology guidelines recommend consideration of aspirin for primary prevention only in selected patients at high cardiovascular risk and low bleeding risk. 19 , 20 The USPSTF recommendation is currently being updated. 21

Cancer Screening

The three POEMs on cancer screening ( Table 4 ) address colorectal cancer. 22 – 24 Fecal immunochemical testing (FIT) is the recommended method for colorectal cancer screening in most countries that have screening programs and is the subject of the first two POEMs in this group. The first POEM is an Italian study that reported the diagnostic yield of five rounds of biennial FIT in persons 50 to 69 years of age submitting a single specimen. 22 The highest rates of detection occurred in the first round, as prevalent cancers were detected, and declined and then stabilized in later rounds. Over the 10-year study, about 25% of men and 18% of women had a positive test result requiring a follow-up colonoscopy. The cumulative rate was 6% for advanced adenoma and 0.85% for colorectal cancer, which are similar to findings in studies of colonoscopy in Italy and the United States. 25 , 26 These results mean we can have confidence in FIT as a screening test while we wait for the results of ongoing randomized trials of FIT vs. colonoscopy-based screening.

The second POEM about FIT was a meta-analysis evaluating the impact of aspirin, nonsteroidal anti-inflammatory drugs, and anticoagulants on the positive predictive value of the test. 23 It could theoretically go in either direction, increasing false positives by making noncancerous lesions more likely to bleed or increasing true positives by making cancers and adenomas more likely to bleed. The researchers found that the use of any of these medications had almost no effect on the positive predictive value, which was approximately 6% for colorectal cancer and 40% for advanced neoplasia. FIT requires only a single specimen and no dietary preparation, and now we know that patients undergoing FIT can continue to take medications that increase bleeding risk.

Finally, a study used a Swedish cancer registry with 173,796 patients to determine the impact of family history on the risk of colorectal cancer. 24 The relative risk of colorectal cancer using no affected relatives as the reference was 1.2 for a single second-degree relative with a history of colorectal cancer, 1.6 for a single first-degree relative or two second-degree relatives, 2.3 for one first-degree relative and one second-degree relative, 2.5 for two first-degree relatives, and 5.4 for one first-degree and two second-degree relatives. However, a previous study found that this family history–related risk is attenuated once patients reach 55 years of age. 27

POEMs on managing infections are summarized in Table 5 . 28 – 30 The first POEM is a meta-analysis of studies that recruited outpatients with acute respiratory tract infections who received chest radiography. 28 The goal was to identify the best sign, symptom, or combination that allows clinicians to rule out community-acquired pneumonia (CAP). The researchers found that for patients with the combination of normal vital signs and normal lung examination findings, the likelihood of CAP is low at 0.4%. This could help reduce unnecessary chest radiography if applied consistently.

The second POEM in this group was selected as one of the top three research studies out of more than 400 presented at the 2019 North American Primary Care Research Group meeting. 29 This Swedish study included 422 adults and children presenting to a primary care physician with moderately severe streptococcal pharyngitis (strep throat). Patients were randomized to penicillin V at a dosage of 800 mg four times a day for five days or 1,000 mg three times a day for 10 days. Those receiving the higher dose over a shorter course of treatment had similar cure rates as those receiving longer-duration therapy, with quicker symptom resolution and no increase in recurrence. Many other studies have found similar results with antibiotics for a range of infections.

An accurate prognosis can potentially help patients avoid unnecessary antibiotic use and return visits. The third POEM in this group recruited 485 healthy children in the United Kingdom, and parents were instructed to contact the researchers every time the child had a respiratory tract infection. 30 One-half of the children had at least one infection, with a median duration of nine days; 90% recovered by day 23. Lower respiratory tract infections were associated with a longer duration of symptoms and ear infections were associated with a shorter duration. This reinforces that clinicians should counsel parents of children with lower respiratory tract symptoms to be patient.

Miscellaneous

Four additional POEMs are summarized in Table 6 . 31 – 34 The first is a cohort study of more than 1.6 million Medicare beneficiaries who started an anticoagulant between 2011 and 2015. 31 Bleeding rates were compared, adjusting for available covariates using propensity score matching (i.e., matching patients who were similar other than choice of anticoagulant). The adjusted incidence of hospitalization for upper gastrointestinal tract bleeding was significantly higher in those who received rivaroxaban (Xarelto) compared with those who received dabigatran (Pradaxa), warfarin (Coumadin), or apixaban (Eliquis); 144 per 10,000 person-years vs. 120, 113, and 73, respectively). For all agents combined, adding a proton pump inhibitor significantly reduced bleeding risk (76 out of 10,000 per year vs. 115 out of 10,000 per year; number needed to treat = 256), although rivaroxaban still had the highest bleeding rate.

The next POEM identified 225 adults presenting to the emergency department with acute pain (mostly musculoskeletal); the average pain score was 6 to 7 out of 10. 32 They were then randomized to a single dose of 400-mg, 600-mg, or 800-mg ibuprofen. An hour after taking the medication, there was no difference between groups, which all had pain scores between 4.4 and 4.5.

The third POEM in this group is a meta-analysis of studies comparing two doses of the recombinant zoster vaccine (Shingrix) with one dose of the live, attenuated vaccine (Zostavax) for the prevention of shingles. 33 Shingrix was more effective but caused more systemic adverse events, although mild, and more injection site pain.

Finally, a systematic review identified 46 studies of the impact of exercise on fall risk in patients 59 years or older. 34 Most of the programs used moderate-intensity exercise, with about one hour of exercise three times per week. The researchers found that exercise significantly decreased the overall risk of falls and resulting injuries but did not affect the risk of multiple falls, hospitalization, or mortality. Fractures were less likely in the exercise group but not significantly.

Practice Guidelines

POEMs sometimes summarize high-impact practice guidelines from important organizations. Key messages from the three highest-rated guidelines are summarized in Table 7 . 35 – 37

The American College of Chest Physicians recommends initiating direct oral anticoagulant therapy in patients with newly diagnosed atrial fibrillation, avoiding aspirin or aspirin plus clopidogrel (Plavix) to prevent thromboembolism, using risk scores for stroke and bleeding, and avoiding cotreatment with aspirin and an anticoagulant if possible. 35

The American Diabetes Association/European Association for the Study of Diabetes guideline for type 2 diabetes mellitus continues to recommend educating patients about diabetes self-management and providing support as the cornerstone of therapy, and metformin as the preferred initial therapy. 36 If a second agent is needed, there are many options, although glucagon-like peptide 1 receptor antagonists or sodium-glucose cotransporter 2 inhibitors are recommended for patients with established heart disease; sodium-glucose cotransporter 2 inhibitors are preferred for patients with heart failure or chronic kidney disease.

The American College of Physicians recommendations for breast cancer screening generally parallel those of the USPSTF, which are supported by the American Academy of Family Physicians. Recommendations include shared decision-making in women 40 to 49 years of age, biennial mammography from 50 to 74 years of age or until the woman's life expectancy is less than 10 years, and eliminating the clinical breast examination as a screening test for women who undergo regular mammography. 37 – 39

The full text of the POEMs discussed in this article is available at https://www.aafp.org/journals/afp/content/top-poems/2019.html .

A list of top POEMs from previous years is available at https://www.aafp.org/afp/toppoems .

Editor's Note: This article was cowritten by Dr. Mark Ebell, who is deputy editor for evidence-based medicine for AFP and cofounder and editor-in-chief of Essential Evidence Plus, published by Wiley-Blackwell, Inc. Because of Dr. Ebell's dual roles and ties to Essential Evidence Plus, the concept for this article was independently reviewed and approved by a group of AFP 's medical editors. In addition, the article underwent peer review and editing by three of AFP 's medical editors. Dr. Ebell was not involved in the editorial decision-making process.—Sumi Sexton, MD, Editor-in-Chief.

The authors thank Wiley-Blackwell, Inc., for giving permission to excerpt the POEMs; Drs. Allen Shaughnessy, Henry Barry, David Slawson, Nita Kulkarni, and Linda Speer for their work in selecting and writing the original POEMs; the academic family medicine fellows and faculty of the University of Missouri–Columbia for their work as peer reviewers; Pierre Pluye, PhD, for his work in codeveloping the Information Assessment Method; and Maria Vlasak for her assistance with copyediting the POEMs for the past 26 years.

Shaughnessy AF, Slawson DC, Bennett JH. Becoming an information master: a guidebook to the medical information jungle. J Fam Pract. 1994;39(5):489-499.

Ebell MH, Barry HC, Slawson DC, et al. Finding POEMs in the medical literature. J Fam Pract. 1999;48(5):350-355.

Grad RM, Pluye P, Mercer J, et al. Impact of research-based synopses delivered as daily e-mail: a prospective observational study. J Am Med Inform Assoc. 2008;15(2):240-245.

Pluye P, Grad RM, Johnson-Lafleur J, et al. Evaluation of email alerts in practice: Part 2. Validation of the information assessment method. J Eval Clin Pract. 2010;16(6):1236-1243.

• Hermida RC, Crespo JJ, Domínguez-Sardiña M, et al. Bedtime hypertension treatment improves cardiovascular risk reduction: the Hygia Chronotherapy Trial [published online October 22, 2019]. Eur Heart J . 2019. Accessed March 10, 2020. https://academic.oup.com/eurheartj/advance-article/doi/10.1093/eurheartj/ehz754/5602478

Roerecke M, Kaczorowski J, Myers MG. Comparing automated office blood pressure readings with other methods of blood pressure measurement for identifying patients with possible hypertension. A systematic review and meta-analysis. JAMA Intern Med. 2019;179(3):351-362.

Slee A, Nazareth I, Bondaronek P, et al. Pharmacological treatments for generalised anxiety disorder [published correction appears in Lancet . 2019;393(10182):1698]. Lancet. 2019;393(10173):768-777.

Paskins Z, Sanders T, Croft PR, et al. Non-disclosure of symptoms in primary care: an observational study. Fam Pract. 2018;35(6):706-711.

de Vries YA, Roest AM, Bos EH, et al. Predicting antidepressant response by monitoring early improvement of individual symptoms of depression: individual patient data meta-analysis. Br J Psychiatry. 2019;214(1):4-10.

Mora S, Chang CL, Moorthy MV, et al. Association of nonfasting vs fasting lipid levels with risk of major coronary events in the Anglo-Scandinavian Cardiac Outcomes Trial–lipid lowering arm. JAMA Intern Med. 2019;179(7):898-905.

Cholesterol Treatment Trialists' Collaboration. Efficacy and safety of statin therapy in older people: a meta-analysis of individual participant data from 28 randomised controlled trials. Lancet. 2019;393(10170):407-415.

McNeil JJ, Wolfe R, Woods RL, et al.; ASPREE Investigator Group. Effect of aspirin on cardiovascular events and bleeding in the healthy elderly. N Engl J Med. 2018;379(16):1509-1518.

McNeil JJ, Woods RL, Nelson MR, et al.; ASPREE Investigator Group. Effect of aspirin on disability-free survival in the healthy elderly. N Engl J Med. 2018;379(16):1499-1508.

Bowman L, Mafham M, Wallendszus K, et al.; ASCEND Study Collaborative Group. Effects of aspirin for primary prevention in persons with diabetes mellitus. N Engl J Med. 2018;379(16):1529-1539.

Nordestgaard BG, Langsted A, Mora S, et al. Fasting is not routinely required for determination of a lipid profile—a joint consensus statement from the European Atherosclerosis Society and European Federation of Clinical Chemistry and Laboratory Medicine. Eur Heart J. 2016;37(25):1944-1958.

Grundy SM, Stone NJ. 2018 cholesterol clinical practice guidelines: Synopsis of the 2018 American Heart Association/American College of Cardiology/Multisociety cholesterol guideline. Ann Intern Med. 2019;170(11):779-783.

Moriarty F, Ebell MH. A comparison of contemporary versus older studies of aspirin for primary prevention [published online November 21, 2019]. Fam Pract . 2019. Accessed March 10, 2020. https://academic.oup.com/fampra/advance-article/doi/10.1093/fampra/cmz080/5637484

Piepoli MF, Hoes AW, Agewall S, et al.; The Sixth Joint Task Force of the European Society of Cardiology and Other Societies on Cardiovascular Disease Prevention in Clinical Practice. 2016 European Guidelines on cardiovascular disease prevention in clinical practice. Eur Heart J. 2016;37(29):2315-2381.

Arnett DK, Blumenthal RS, Albert MA, et al. 2019 ACC/AHA guideline on the primary prevention of cardiovascular disease: a report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines [published correction appears in J Am Coll Cardiol . 2019;74(10):1429–1430]. J Am Coll Cardiol. 2019;74(10):e177-e232.

Bibbins-Domingo K. Aspirin Use for the Primary Prevention of Cardiovascular Disease and Colorectal Cancer: U.S. Preventive Services Task Force Recommendation Statement. Ann Intern Med. 2016;164(12):836-845.

U.S. Preventive Services Task Force. Aspirin use to prevent cardiovascular disease and colorectal cancer: preventive medication. April 2016. Accessed February 14, 2010. https://bit.ly/343LnT6

Zorzi M, Hassan C, Capodaglio G, et al. Long-term performance of colorectal cancer screening programmes based on the faecal immunochemical test. Gut. 2018;67(12):2124-2130.

Nieuwenburg SAV, Vuik FER, Kruip MJHA, et al. Effect of anticoagulants and NSAIDs on accuracy of faecal immunochemical tests (FITs) in colorectal cancer screening: a systematic review and meta-analysis. Gut. 2019;68(5):866-872.

Tian Y, Kharazmi E, Sundquist K, et al. Familial colorectal cancer risk in half siblings and siblings: nationwide cohort study. BMJ. 2019;364:l803.

Imperiale TF, Ransohoff DF, Itzkowitz SH, et al. Multitarget stool DNA testing for colorectal-cancer screening. N Engl J Med. 2014;370(14):1287-1297.

Segnan N, Senore C, Andreoni B, et al. Comparing attendance and detection rate of colonoscopy with sigmoidoscopy and FIT for colorectal cancer screening. Gastroenterology. 2007;132(7):2304-2312.

Schoen RE, Razzak A, Yu KJ, et al. Incidence and mortality of colorectal cancer in individuals with a family history of colorectal cancer. Gastroenterology. 2015;149(6):1438-1445.e1.

Marchello CS, Ebell MH, Dale AP, et al. Signs and symptoms that rule out community-acquired pneumonia in outpatient adults: a systematic review and meta-analysis. J Am Board Fam Med. 2019;32(2):234-247.

Skoog Ståhlgren G, Tyrstrup M, Edlund C, et al. Penicillin V four times daily for five days versus three times daily for 10 days in patients with pharyngotonsillitis caused by group A streptococci: randomised controlled, open label, non-inferiority study. BMJ. 2019;367:l5337.

Hay AD, Anderson E, Ingle S, et al. Respiratory tract infections in children in the community: prospective online inception cohort study. Ann Fam Med. 2019;17(1):14-22.

Ray WA, Chung CP, Murray KT, et al. Association of oral anticoagulants and proton pump inhibitor cotherapy with hospitalization for upper gastrointestinal tract bleeding. JAMA. 2018;320(21):2221-2230.

Motov S, Masoudi A, Drapkin J, et al. Comparison of oral ibuprofen at three single-dose regimens for treating acute pain in the emergency department: a randomized controlled trial. Ann Emerg Med. 2019;74(4):530-537.

Tricco AC, Zarin W, Cardoso R, et al. Efficacy, effectiveness, and safety of herpes zoster vaccines in adults aged 50 and older: systematic review and network meta-analysis. BMJ. 2018;363:k4029.

de Souto Barreto P, Rolland Y, Vellas B, et al. Association of long-term exercise training with risk of falls, fractures, hospitalizations, and mortality in older adults. A systematic review and meta-analysis. JAMA Intern Med. 2019;179(3):394-405.

Lip GYH, Banerjee A, Boriani G, et al. Antithrombotic therapy for atrial fibrillation: CHEST guideline and expert panel report. Chest. 2018;154(5):1121-1201.

Davies MJ, D'Alessio DA, Fradkin J, et al. Management of hyperglycemia in type 2 diabetes, 2018. A consensus report by the American Diabetes Association (ADA) and the European Association for the Study of Diabetes (EASD). Diabetes Care. 2018;41(12):2669-2701.

Qaseem A, Lin JS, Mustafa RA, et al. Screening for breast cancer in average-risk women: a guidance statement from the American College of Physicians. Ann Intern Med. 2019;170(8):547-560.

U.S. Preventive Services Task Force. Breast cancer: screening. January 2016. Accessed February 14, 2020. https://bit.ly/2ykUZwU

American Academy of Family Physicians. Clinical preventive service recommendation. Breast cancer. Accessed February 14, 2020. https://www.aafp.org/patient-care/clinical-recommendations/all/breast-cancer.html

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Medical Research Paper Topics

This page provides a comprehensive list of medical research paper topics divided into 20 categories, each with 10 unique subjects. The categories span across various subfields, including anatomy and physiology, diseases, epidemiology, health and fitness, health disparities, healthcare, kinesiology, mental health, pharmacology, and veterinary medicine. Additionally, the page offers expert advice on choosing the right topic and crafting an impactful medical research paper. It also introduces iResearchNet’s writing services, which are designed to assist students in creating high-quality, custom medical research papers.

200 Medical Research Paper Topics:

Medical research is a vast and diverse field, offering a plethora of topics for students and researchers to explore. The choice of topic can significantly influence the direction of your research and the impact of your findings. Therefore, it’s crucial to choose a topic that not only interests you but also aligns with your academic and career goals. To assist you in this endeavor, we have compiled a comprehensive list of medical research paper topics, divided into 20 categories, each with 10 unique topics.

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1. Anatomy and Physiology:

• The role of the lymphatic system in maintaining homeostasis.
• The impact of aging on muscle function and structure.
• The physiological effects of stress on the human body.
• The role of the endocrine system in metabolism.
• The impact of exercise on cardiovascular health.
• The role of the nervous system in sensation and perception.
• The physiological effects of sleep deprivation.
• The role of the digestive system in nutrient absorption.
• The impact of genetic factors on human physiology.
• The role of the immune system in disease prevention.

2. Diseases:

• The genetic and environmental factors contributing to the development of cancer.
• The impact of lifestyle factors on the prevalence of heart disease.
• The role of vaccination in the prevention of infectious diseases.
• The challenges in the management and treatment of diabetes.
• The impact of the human microbiome on disease development.
• The role of inflammation in the pathogenesis of autoimmune diseases.
• The challenges in the diagnosis and treatment of Alzheimer’s disease.
• The impact of antibiotic resistance on the treatment of bacterial infections.
• The role of genetic mutations in the development of rare diseases.
• The impact of viral evolution on the spread of infectious diseases.

3. Epidemiology:

• The impact of socioeconomic factors on the prevalence of infectious diseases.
• The role of vaccination in the prevention of disease outbreaks.
• The impact of climate change on the spread of vector-borne diseases.
• The role of epidemiological studies in the development of public health policies.
• The impact of population density on the spread of infectious diseases.
• The role of epidemiology in the identification of risk factors for chronic diseases.
• The impact of global travel on the spread of infectious diseases.
• The role of epidemiological data in the management of disease outbreaks.
• The impact of demographic factors on disease prevalence.
• The role of epidemiology in the study of health disparities.

4. Health and Fitness:

• The impact of physical activity on mental health.
• The role of diet in the prevention of chronic diseases.
• The impact of sedentary lifestyle on health.
• The role of physical fitness in the prevention of heart disease.
• The impact of obesity on health and lifespan.
• The role of exercise in the management of stress.
• The impact of nutrition on cognitive function.
• The role of physical activity in the management of chronic diseases.
• The impact of sleep on health and wellbeing.
• The role of lifestyle interventions in the prevention of diabetes.

5. Health Disparities:

• The impact of socioeconomic status on health outcomes.
• The role of healthcare access in health disparities.
• The impact of racial and ethnic disparities on health outcomes.
• The role of social determinants of health in health disparities.
• The impact of health literacy on health outcomes.
• The role of cultural competence in reducing health disparities.
• The impact of gender disparities on health outcomes.
• The role of health policy in addressing health disparities.
• The impact of environmental factors on health disparities.
• The role of education in reducing health disparities.

6. Healthcare:

• The impact of healthcare reform on patient outcomes.
• The role of telemedicine in improving healthcare access.
• The impact of health information technology on patient care.
• The role of healthcare quality in patient satisfaction.
• The impact of healthcare costs on health outcomes.
• The role of healthcare leadership in improving patient care.
• The impact of health insurance on healthcare access.
• The role of healthcare innovation in improving patient outcomes.
• The impact of healthcare policy on patient care.
• The role of healthcare management in improving healthcare quality.

7. Kinesiology:

• The impact of physical activity on muscle function.
• The role of biomechanics in injury prevention.
• The impact of exercise on cognitive function.
• The role of kinesiology in the prevention of chronic diseases.
• The impact of physical fitness on health outcomes.
• The role of kinesiology in the management of sports injuries.
• The impact of exercise physiology on athletic performance.
• The role of kinesiology in the promotion of physical activity.
• The impact of motor control on athletic performance.
• The role of kinesiology in the study of human movement.

8. Mental Health:

• The impact of stress on mental health.
• The role of psychotherapy in the treatment of mental disorders.
• The impact of mental illness on quality of life.
• The role of mental health promotion in the prevention of mental disorders.
• The impact of stigma on mental health outcomes.
• The role of mental health services in the treatment of mental disorders.
• The impact of mental health policy on mental health services.
• The role of mental health literacy in the prevention of mental disorders.
• The impact of mental health disparities on mental health outcomes.
• The role of mental health research in improving mental health care.

9. Pharmacology:

• The impact of drug interactions on patient safety.
• The role of pharmacokinetics in drug development.
• The impact of pharmacogenomics on personalized medicine.
• The role of pharmacology in the treatment of diseases.
• The impact of drug resistance on the treatment of infectious diseases.
• The role of pharmacology in the management of pain.
• The impact of drug abuse on public health.
• The role of pharmacology in the prevention of drug interactions.
• The impact of drug development on patient care.
• The role of pharmacology in the study of drug action.

10. Veterinary Medicine:

• The impact of zoonotic diseases on public health.
• The role of veterinary medicine in the prevention of animal diseases.
• The impact of veterinary medicine on food safety.
• The role of veterinary medicine in the treatment of animal diseases.
• The impact of veterinary public health on human health.
• The role of veterinary medicine in the prevention of zoonotic diseases.
• The impact of animal health on public health.
• The role of veterinary medicine in the promotion of animal welfare.
• The impact of veterinary medicine on animal behavior.
• The role of veterinary medicine in the study of animal physiology.

11. Neurology:

• The impact of neurodegenerative diseases on public health.
• The role of neurology in the treatment of neurological disorders.
• The impact of neurological research on patient care.
• The role of neurology in the study of the nervous system.
• The impact of neurological disorders on quality of life.
• The role of neurology in the diagnosis of neurological disorders.
• The impact of neurological diseases on mental health.
• The role of neurology in the prevention of neurological diseases.
• The impact of neurological disorders on cognitive function.
• The role of neurology in the study of brain function.

12. Oncology:

• The impact of cancer on public health.
• The role of oncology in the treatment of cancer.
• The impact of oncological research on patient care.
• The role of oncology in the study of cancer.
• The impact of cancer on quality of life.
• The role of oncology in the diagnosis of cancer.
• The impact of cancer on mental health.
• The role of oncology in the prevention of cancer.
• The impact of cancer on physical health.
• The role of oncology in the study of cancer biology.

13. Cardiology:

• The impact of heart disease on public health.
• The role of cardiology in the treatment of heart disease.
• The impact of cardiological research on patient care.
• The role of cardiology in the study of the cardiovascular system.
• The impact of heart disease on quality of life.
• The role of cardiology in the diagnosis of heart disease.
• The impact of heart disease on mental health.
• The role of cardiology in the prevention of heart disease.
• The impact of heart disease on physical health.
• The role of cardiology in the study of heart function.

14. Endocrinology:

• The impact of endocrine disorders on public health.
• The role of endocrinology in the treatment of endocrine disorders.
• The impact of endocrinological research on patient care.
• The role of endocrinology in the study of the endocrine system.
• The impact of endocrine disorders on quality of life.
• The role of endocrinology in the diagnosis of endocrine disorders.
• The impact of endocrine disorders on mental health.
• The role of endocrinology in the prevention of endocrine disorders.
• The impact of endocrine disorders on physical health.
• The role of endocrinology in the study of hormone function.

15. Gastroenterology:

• The impact of gastrointestinal disorders on public health.
• The role of gastroenterology in the treatment of gastrointestinal disorders.
• The impact of gastroenterological research on patient care.
• The role of gastroenterology in the study of the gastrointestinal system.
• The impact of gastrointestinal disorders on quality of life.
• The role of gastroenterology in the diagnosis of gastrointestinal disorders.
• The impact of gastrointestinal disorders on mental health.
• The role of gastroenterology in the prevention of gastrointestinal disorders.
• The impact of gastrointestinal disorders on physical health.
• The role of gastroenterology in the study of digestive function.

16. Dermatology:

• The impact of skin disorders on public health.
• The role of dermatology in the treatment of skin disorders.
• The impact of dermatological research on patient care.
• The role of dermatology in the study of the skin.
• The impact of skin disorders on quality of life.
• The role of dermatology in the diagnosis of skin disorders.
• The impact of skin disorders on mental health.
• The role of dermatology in the prevention of skin disorders.
• The impact of skin disorders on physical appearance.
• The role of dermatology in the study of skin health.

17. Pulmonology:

• The impact of respiratory disorders on public health.
• The role of pulmonology in the treatment of respiratory disorders.
• The impact of pulmonological research on patient care.
• The role of pulmonology in the study of the respiratory system.
• The impact of respiratory disorders on quality of life.
• The role of pulmonology in the diagnosis of respiratory disorders.
• The impact of respiratory disorders on mental health.
• The role of pulmonology in the prevention of respiratory disorders.
• The impact of respiratory disorders on physical health.
• The role of pulmonology in the study of lung function.

18. Pediatrics:

• The impact of childhood diseases on public health.
• The role of pediatrics in the treatment of childhood diseases.
• The impact of pediatric research on patient care.
• The role of pediatrics in the study of childhood diseases.
• The impact of childhood diseases on quality of life.
• The role of pediatrics in the diagnosis of childhood diseases.
• The impact of childhood diseases on mental health.
• The role of pediatrics in the prevention of childhood diseases.
• The impact of childhood diseases on physical health.
• The role of pediatrics in the study of child health.

19. Geriatrics:

• The impact of aging on public health.
• The role of geriatrics in the treatment of age-related diseases.
• The impact of geriatric research on patient care.
• The role of geriatrics in the study of aging.
• The impact of aging on quality of life.
• The role of geriatrics in the diagnosis of age-related diseases.
• The impact of aging on mental health.
• The role of geriatrics in the prevention of age-related diseases.
• The impact of aging on physical health.
• The role of geriatrics in the study of the aging process.

20. Psychiatry:

• The impact of mental disorders on public health.
• The role of psychiatry in the treatment of mental disorders.
• The impact of psychiatric research on patient care.
• The role of psychiatry in the study of mental disorders.
• The impact of mental disorders on quality of life.
• The role of psychiatry in the diagnosis of mental disorders.
• The impact of mental disorders on social interactions.
• The role of psychiatry in the prevention of mental disorders.
• The impact of mental disorders on physical health.
• The role of psychiatry in the study of mental health.

The field of medical research is vast and diverse, offering a multitude of topics for exploration. The choice of a research topic is a critical step in the research process, and it can significantly influence the direction of your research and the impact of your findings. Therefore, it’s crucial to choose a topic that not only interests you but also aligns with your academic and career goals. This comprehensive list of medical research paper topics provides a starting point for your research journey. Remember, the best research topic is one that is original, manageable, and meaningful.

More Medical Research Paper Topics

• Anatomy and Physiology Research Paper Topics
• Biomedical Research Paper Topics
• Clinical Research Paper Topics
• Disease Research Paper Topics
• Epidemiology Research Paper Topics
• Exercise Physiology Research Paper Topics
• Health Disparities Research Paper Topics
• Healthcare Research Paper Topics
• Kinesiology Research Paper Topics
• Mental Health Research Paper Topics
• Pharmacology Research Paper Topics
• Phlebotomy Research Paper Topics
• Physical Fitness Research Paper Topics
• Radiology Research Paper Topics
• Veterinary Medicine Research Paper Topics

Introduction to Medical Research

Medical research is a broad and multifaceted field that encompasses a wide range of topics and disciplines. It is the backbone of modern healthcare and plays a crucial role in improving the quality of life for people around the world. Medical research is the driving force behind new discoveries, innovative treatments, and the development of policies that shape public health.

At its core, medical research seeks to understand the complexities of the human body, the diseases that afflict it, and the various external factors that influence health. It is a field that is constantly evolving, with new technologies and methodologies continually pushing the boundaries of what we know about health and disease.

One of the key aspects of medical research is its interdisciplinary nature. It draws upon a variety of fields, including biology, chemistry, physics, and even social sciences. This interdisciplinary approach allows for a more comprehensive understanding of health and disease, as it considers not only the biological aspects but also the social, environmental, and psychological factors that influence health.

For instance, research in anatomy and physiology delves into the structure and function of the human body, providing the foundation for understanding health and disease. Studies in diseases and epidemiology, on the other hand, focus on the patterns, causes, and effects of health and disease conditions in defined populations. Health and fitness research explores the impact of lifestyle choices on health, while health disparities research examines the inequalities in health outcomes and healthcare that exist among different population groups.

Research in healthcare and kinesiology often intersects, examining how healthcare services and physical activity can improve health outcomes. Mental health research is a rapidly growing field, addressing a wide range of mental health disorders and the impact they have on overall health. Pharmacology research is vital for the development of new drugs and therapies, while veterinary medicine research not only improves the health of animals but can also provide insights into human health through comparative medicine.

Choosing a topic for a medical research paper can be a daunting task given the breadth and depth of the field. However, it also offers a wealth of opportunities to delve into a topic that is not only interesting but can also contribute to the betterment of health and healthcare.

How to Choose Medical Research Paper Topics

Choosing a topic for your medical research paper is a critical step in your academic journey. The topic you select will guide your research direction, influence your motivation, and determine the depth of your understanding of the subject matter. Therefore, it’s essential to choose wisely and consider various factors before making a decision. Here are ten comprehensive tips to help you select the right medical research paper topic:

• Identify Your Interests: The first step in choosing a research topic is to consider your interests within the field of medicine. Are you fascinated by neurology, passionate about public health, or intrigued by the complexities of surgery? Identifying your interests can help you narrow down potential topics. When you choose a topic you’re passionate about, the research process becomes less of a task and more of an exploration. You’ll find yourself more engaged, and the enthusiasm will reflect in the quality of your research.
• Consider the Scope: The scope of your topic is an important factor to consider. A topic that’s too broad can make your research overwhelming, as you may have to sift through an enormous amount of information and struggle to cover all aspects within the constraints of your paper. On the other hand, a topic that’s too narrow might not provide enough material for a comprehensive study. Strive for a balance where your topic is specific enough to manage but broad enough to explore in depth.
• Check for Resources: Before finalizing a topic, ensure there are sufficient resources available for your research. These resources could include books, scholarly articles, reputable online sources, and expert interviews. Conduct a preliminary literature review to gauge the availability of sources. A lack of resources can lead to a weak paper, while an abundance of resources can provide multiple perspectives and strengthen your research.
• Relevance to Current Times: Choosing a topic that is relevant to current medical issues or ongoing research can make your paper more engaging and significant. It allows you to contribute to the existing body of knowledge and possibly influence future research or policy. Whether it’s a new treatment method, an emerging disease, or a controversial medical practice, current topics can spark interest and debate.
• Consult with Your Instructor: Your instructor or advisor can be a valuable resource when choosing a topic. They can provide guidance, help you refine a broad topic, expand a narrow one, and provide feedback on your initial ideas. They can also point you towards resources or research areas you might not have considered.
• Consider the Target Audience: Always keep your target audience in mind when choosing a research topic. The topic should be interesting and accessible to them. If you’re writing for a class, consider what you’ve already discussed and what themes your instructor has emphasized. If you’re writing for publication, consider the interests and level of expertise of the readers of the journal.
• Practicality: Consider the practical aspects of your research. If your research involves primary data collection, consider the feasibility of the methods you plan to use. Do you have access to the necessary equipment or population? Is your study ethical and approved by an ethics committee? Practical considerations can significantly influence your choice of topic.
• Originality: While it’s important to build upon existing research, strive to bring a unique perspective to your topic. This could involve studying a well-researched topic from a new angle, exploring a less-studied area of medical research, or proposing a new hypothesis. Originality can make your research stand out and contribute to the advancement of your field.
• Alignment with Course Objectives: Your research topic should align with the objectives of your course or curriculum. This ensures that your research paper will not only be interesting but also academically beneficial. It can demonstrate your understanding ofthe course material and your ability to apply it in a real-world context.
• Future Career Relevance: If you have a clear idea of your future career path, consider choosing a topic that could be beneficial in your professional life. This could mean researching a topic related to a field you’d like to specialize in, a current issue in your future profession, or a novel area of study that could give you a competitive edge in your career.

In addition to these tips, it’s also important to consider the timeline of your research. Some topics may require more time to research than others, especially if they involve complex experiments or hard-to-reach populations. Make sure you choose a topic that you can reasonably research and write about within your given timeframe.

Also, consider the potential impact of your research. While it’s not always possible to predict how influential a research paper will be, you can consider whether the topic has the potential to affect policy, influence clinical practice, or lead to new research questions. Choosing a topic with potential impact can be particularly important if you plan to pursue a career in academia or research.

Remember, choosing a research topic is not a decision to be taken lightly. It’s the foundation of your research paper and can significantly influence your enjoyment of the writing process, your grade, and even your future career. Take your time, consider your options, and choose a topic that you are passionate about, meets practical considerations, and has the potential to contribute to the field of medical science.

Finally, be flexible. Research is a dynamic process, and it’s okay to refine or even change your topic as you delve deeper into your research. The most important thing is to stay curious, open-minded, and dedicated to uncovering new knowledge. With the right topic, research can be a rewarding journey of discovery.

How to Write a Medical Research Paper

Writing a medical research paper is a comprehensive task that demands a profound understanding of the subject matter, a systematic approach, and a lucid writing style. This process can be quite daunting, especially for those who are new to it. However, with the right guidance and a well-structured plan, it can be a rewarding experience. Here are ten detailed tips to guide you through the process:

• Understand the Assignment Thoroughly: The first step in writing a medical research paper is to fully comprehend the assignment. What is the specific question you’re being asked to address? What is the scope of the research paper? What are the formatting requirements? Are there any specific sources you need to use? Understanding the assignment in its entirety will help you focus your research and ensure you meet all the requirements. It’s crucial to clarify any doubts with your professor or advisor at this stage to avoid any misunderstandings later on.
• Choose a Suitable Topic: If you have the freedom to choose your own topic, select one that genuinely interests you. Your passion for the subject will come through in your writing, making the process more enjoyable and less of a chore. Make sure the topic is relevant to your field of study and is something you can manage within the given timeframe and word limit. A well-chosen topic can make the difference between a paper that is a joy to research and write and one that is a burdensome chore.
• Conduct Thorough Research: The next step is to conduct comprehensive research. Use reputable sources such as academic journals, textbooks, and government health websites to gather information. Make sure to use the most recent data and research available, as the medical field is constantly evolving and it’s important to stay up-to-date. Keep track of your sources as you go along for easy referencing later. This will also save you a lot of time when you are compiling your bibliography.
• Create an Outline: An outline is a roadmap for your research paper. It should include an introduction, a body with several points or arguments, and a conclusion. Each point should be supported by evidence from your research. An outline will help structure your thoughts and ideas, making your writing process smoother and more organized. It also allows you to see the flow of your arguments and make sure that everything is in a logical order.
• Write a Strong Thesis Statement: Your thesis statement is the backbone of your research paper. It should clearly state the main idea or argument of your paper. It should be concise, specific, and arguable. The thesis statement will guide your writing and keep your argument focused. Spend some time crafting a strong thesis statement. It’s worth the effort as it will give direction to your research and writing.
• Start Writing: Once you have your outline and thesis statement, you can start writing. Begin with a draft. Don’t worry about making it perfect the first time around. Just get your ideas down on paper. You can revise and improve it later. Remember, writing is a process. It’s okay to have multiple drafts. The important thing is to start writing.
• Use Clear, Concise Language: Medical research papers should be written in a clear, concise, and formal style. Avoid jargon and complex sentences. Make sure your ideas are expressed clearly and logically. Remember, your goal is to communicate your research and ideas, not to impress with big words or complex sentences.
• Cite Your Sources: Always cite your sources. This gives credit to the original authors and allows readers to follow up on your research. Be sure to use the citation style required by your professor or the journal you are submitting to. Proper citation is not just about avoiding plagiarism. It also lends credibility to yourpaper and demonstrates the breadth of your research.
• Revise and Edit: Once you’ve finished your draft, take the time to revise and edit. This is where you refine your arguments, clarify your thoughts, and polish your language. Look for any inconsistencies, grammatical errors, or areas that could be clarified or improved. Consider having a peer or mentor review your paper. They can provide valuable feedback and catch errors you might have missed. Remember, good writing is rewriting. Don’t be afraid to make changes, and don’t be discouraged if your first draft isn’t perfect.
• Proofread: Finally, proofread your paper. Check for any spelling, grammar, or punctuation errors. Make sure all citations and references are correct. Proofreading is a crucial step in the writing process. Even the most well-researched and well-written paper can lose credibility if it’s full of errors. Consider using a proofreading tool or ask someone else to proofread your paper. A fresh pair of eyes can often catch mistakes you might have overlooked.

In addition to these tips, remember to take breaks during your writing process. Writing a medical research paper is a significant undertaking, and it’s important to avoid burnout. Take time to rest and refresh your mind. This will help you maintain your focus and energy levels.

Also, keep in mind that writing a research paper is not just about the end product. It’s also about the process. It’s an opportunity to learn more about a topic you’re interested in, to improve your research and writing skills, and to contribute to your field of study. Approach it with curiosity and enthusiasm, and you’ll find that writing a medical research paper can be a rewarding experience.

Writing a medical research paper is a systematic process that requires careful planning, thorough research, and meticulous writing. By following these tips, you can produce a paper that is informative, insightful, and contributes to your field of study. Remember, every writer faces challenges along the way, so don’t be discouraged if you encounter difficulties. With persistence and dedication, you can write a successful medical research paper.

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Hot topics and trends in cardiovascular research

1 Department of Cardiovascular Sciences, KU Leuven, Campus Gasthuisberg O/N1 704, Herestraat 49, Leuven, Belgium

2 ECOOM, Department of Managerial Economics, Strategy and Innovation, KU Leuven, Naamsestraat 61, Leuven, Belgium

Wolfgang Glänzel

3 Department Science Policy & Scientometrics, Library of the Hungarian Academy of Sciences, Arany János u. 1, Budapest, Hungary

Karin R Sipido

Associated data.

Comprehensive data on research undertaken in cardiovascular medicine can inform the scientific community and can support policy building. We used the publication output from 2004 to 2013 and the 2014 references to these documents, to identify research topics and trends in the field of cardiovascular disease.

Methods and results

Text fragments were extracted from the titles and abstracts of 478 000 publications using natural language processing. Through machine-learning algorithms, these text fragments combined to identify specific topics across all publications. A second method, which included cross-references, assigned each publication document to a specific cluster. Experts named the topics and document clusters based on various outputs from these semi-automatic methods. We identified and labelled 175 cardiovascular topics and 20 large document clusters, with concordance between the approaches. Overarching, strongly growing topics in clinical and population sciences are evidence-based guidance for treatment, research on outcomes, prognosis, and risk factors. ‘Hot’ topics include novel treatments in valve disease and in coronary artery disease, and imaging. Basic research decreases its share over time but sees substantial growth of research on stem cells and tissue engineering, as well as in translational research. Inflammation, biomarkers, metabolic syndrome, obesity, and lipids are hot topics across population, clinical and basic research, supporting integration across the cardiovascular field.

Growth in clinical and population research emphasizes improving patient outcomes through novel treatments, risk stratification, and prevention. Translation and innovation redefine basic research in cardiovascular disease. Medical need, funding and publishing policies, and scientific opportunities are potential drivers for these evolutions.

Introduction

Current policies for public funding of health research increasingly focus on innovation, with a final goal to improve health outcomes. 1 To support policies, roadmaps are established, for example for diabetes 2 and respiratory 3 diseases. In the USA, the joint Academies developed a document to guide national policy in health 4 with a dedicated document for cardiovascular medicine 5 that includes general directions for research. In Europe, building a roadmap for cardiovascular research is one of the tasks of the ERA-CVD network. 6 Expert opinion guides the exercise but a macro and global-level overview of past cardiovascular research can enrich the debate and strengthen the basis for recommendations. The breadth of cardiovascular research is astounding, 7 with research undertaken across a variety of institutions and with each piece of research having its own scope/focus or topic. It is thus challenging to review and summarize all the research that has been undertaken.

Identifying all the relevant research is the first hurdle to overcome, then classifying or identifying topics of research is the next significant hurdle. Journal classification systems offer little assistance, as they are not granular enough to identify more specific topics within broader fields. Thesauri or medical dictionaries, such as PubMed or the International Classification of Diseases (ICD), do not offer an overview of time-dependent changes in topics or changing concepts.

Identifying key topics using semi-automatic approaches based on text analysis is an alternative solution that takes advantage of recent developments in high-level informatics. As this is not reliant on a predefined classification, it may result in different outcomes. Various methods use natural language processing (NLP) to extract topics or clusters from text. For example, the bibliometric community has compared the results when varying methods are applied to a set of astronomy publications, focusing on the importance having topic expert input throughout the process. 8 The recent CardioScape project analysed abstracts of 2476 research projects awarded 2010–12 as published by funding bodies. The authors assigned research project to topics, based on the abstract text, using a semi-automatic process that tested and trained the data to more quickly allocate abstracts to a topic than depending solely on expert review. They produced a detailed taxonomy or classification of cardiovascular research based on the list of topics of the European Society of Cardiology, creating a hierarchical list of over 600 topics. 9

Here, we aim to identify topics in published cardiovascular research and their evolution between 2004 and 2013, assessing whether they have appeared, disappeared, or changed over time. In a comprehensive approach, we use a combination of existing methods for text mining, network analysis, and clustering, and further develop these tools to handle a large dataset of >400 000 publications.

In our study, we use two different and complementary approaches. A first one detects topics across the collection of publications, counting number of documents, and relations between topics. A second one maps document networks into clusters with an identifiable subject of research. These approaches are described here in brief, with more detail provided in the Supplementary material online .

Data sources

The dataset includes the reference, abstract, address, and citation data for 478 006 cardiovascular publications from 2004 to 2013, including 2014 references to these documents, using an expert informed search strategy and references to core cardiovascular journals, as previously published. 7 The documents span across >5000 journals, and include cardiovascular publications in leading general journals in medical and life sciences ( Supplementary material online , Table S1 ). We obtained the data from Clarivate Analytics Web of Science Core Collection (WoS) through a custom data license held by ECOOM, KU Leuven.

Text pre-processing

We took all titles and abstracts of the above publications, and extracted the noun phrases (text fragments of various lengths) using the NLP framework developed at Stanford. 10 Supplementary material online , Figure S1 illustrates the subsequent data flow for the analysis.

Topic modelling

For this approach, we applied latent Dirichlet allocation (LDA) 11 to the above-mentioned text fragments from the titles and abstracts of all publications. This LDA approach groups the text fragments to identify topics and allocates documents to topics. In this approach, a document contributes to several topics. Of note, general terms or terms that are used frequently across the majority of documents are filtered out as part of the methodology, resulting in groups of highly specific text fragments and, consequently, topics, as illustrated in Supplementary material online , Figure S2 .

At least three cardiovascular experts (listed in the Acknowledgements section) named each topic based on a set of the top 40 text fragments representing a topic. Further rounds of cross-review validated and consolidated the naming process. A final review of all topics ensured naming consistency across the topics and allowed for additional expert-based classification as clinical, basic, or population research.

We then calculated the number of documents that contributed to a topic, using probability analysis in LDA. Furthermore, we calculated the co-occurrence of topics in the publications, and visualized the outcome of this network analysis using VOSViewer ( www.vosviewer.com ). 12

Document clustering

For this second approach, the dataset was reduced to two periods, and we analysed the cardiovascular publications from 2006 to 2008 and those from 2011 to 2013, separately. For each time period, we then calculated the similarities between documents based on the noun phrase text fragments from the titles and abstracts of all publications and based on the references in these publications, using adapted cosine calculations and a hybrid document clustering algorithm, as previously described. 13 We then applied the Louvain 14 community detection algorithm to identify clusters of similar documents. For this method, each document is only located in one cluster. Subsequently, we applied the DrL/OpenOrd algorithm 15 to map and visualize the documents and clusters. We used R 16 in a high-powered cloud-based parallelized computing environment for all operations.

We identified and described the core documents, 13 the most common text fragments, as well as, the most highly cited documents and the most productive authors in each cluster, to name the clusters. For each document cluster, we identified the most highly representative topics from the LDA topic model.

Evolution of cardiovascular topics—trends and ‘hot’ topics

We identified 175 topics, listed alphabetically in Supplementary material online , Table S2 . This list groups specific topics within areas such as atherosclerosis, coronary artery disease, arrhythmias, heart failure, and their evolution over time.

For a visual and comprehensive overview, we prepared a map of the topics and their interrelation, based on co-occurrence within publications using a network analysis ( Figure ​ Figure1 1 A ). This map identifies different categories of research: population (at the top, blue), clinical (left, green/yellow), and basic research (right, red). Large topics in each category define overarching interests such as Evidence-guided-treatment and Outcomes and prognosis in clinical research, and Epidemiology of CVD and risk factors in population research, topics that have seen large growth in numbers of publications since 2004 ( Figure ​ Figure1 1 B ). Cell signalling and gene transcription is a central topic for basic research, with modest growth ( Figure ​ Figure1 1 B ).

Main areas and organization of research focus. ( A ) Visual presentation of the topics in 2013 and how they relate to each other, based on how often the topics are included in the same publication. Each circle represents one topic and each group of topics is highlighted in a separate colour; the most similar documents and clusters are located closer to each other based on VOSviewer mapping. ( B ) Evolution of overarching topics.

More focused ‘hot’ topics that experienced a large growth in number of publications are presented in Figure  2 .

Topics with large growth. For population research, the eight topics that increased more than two-fold in volume are shown; for clinical research, 27 topics increased more than two-fold and 10 of these are presented; for basic research only two topics had more than a two-fold increase, and the top 8 growers are presented. Overarching topics are shown in Figure ​ Figure1 1 B .

In population research, risk factors with research on metabolic syndrome, lipids, diabetes, physical activity, and mental health are prominent. In clinical research, patient management after myocardial infarction (MI) and outside the hospital are leading topics, but the true ‘hot’ topic was aortic valve disease that saw a surge of interest, related to transaortic valve repair, starting 2008. Though still small in numbers, heart failure research and stem cells saw substantial growth. This last clinical topic complements the major hot topics in basic research, on stem cells and cardiac repair and tissue engineering. In basic research, increasing translational output in metabolic syndrome and diabetes use mostly mouse models. Focused topics are organelle studies on mitochondria and endoplasmic reticulum.

Table  1 complements the fast growing topics of Figure  2 with additional leading 2013 topics. Most of these also have grown since 2004, but two topics, even if large, seem to have lost momentum, i.e. longitudinal studies on blood pressure, and basic research in cardiac electrophysiology.

Large topics in 2013

PCOS, polycystic ovary syndrome.

Only four topics in clinical, and none in population research, saw a decrease, whereas seven topics in basic research saw a decline in output ( Figure ​ Figure3 3 A ). Across all topics, the growth in publication output, measured as the number of documents in 2013 divided by the number of documents in 2004, was significantly larger in clinical and population research topics than in basic research topics ( Figure ​ Figure3 3 B ).

Unequal growth of research output across categories. ( A ) Topics that saw a decrease of >5%, i.e. 4/102 clinical and 7/50 basic research topics. ( B ) Average growth in each category. Each dot presents a topic; the values are the fractional growth, i.e. the number of documents in 2013 divided by the number of documents in 2004. Kruskal–Wallis followed by Dunn’s test for multiple comparisons; *** P < 0.0001 basic vs. clinical and vs. population.

When considering the overall output and growth of publications across the categories of population, clinical and basic research, the data suggest that the share of basic research publications is declining.

Document clusters define large research areas and trends

The size of topics represents the activity within each of these—documents contribute to more than one topic. In a complementary approach, we examined how documents group together based on the similarity of their text and of their references, whereby each document can belong to one cluster only, effectively dividing the total publication output into different areas. The hybrid clustering algorithm was applied to two datasets, i.e. the publications from 2006 to 2008 and 2011 to 2013.

In each period, 10 large clusters emerged, accounting for >90% of all documents.

To identify trends, we compare the two periods and examine the evolution over time ( Figure  4 ). In the graph legends, emerging areas are marked by green triangle, decreasing ones with a red triangle. Risk scoring in the population and related patient management are the leading areas, growing over time (top position). In 2011–13, a large cluster emerges that relates to gene and stem-cell therapy, including research on inducible pluripotent stem cells. Documents within this cluster include research on ischaemic heart disease and arrhythmias. Haemodynamics and biomechanics are another emerging area that includes documents on atherosclerosis and vascular diseases such as aneurysms, but also heart failure and assist devices. Aortic valve disease is a newly defined area in 2011–13. Imaging also becomes very prominent as an area in its own right. Whereas in 2006–08, hypertension was a defined area, this is no longer identifiable in 2011–13.

Distribution of document clusters in 2006–08 and in 2011–13. ( A ) In 2006–08, the 10 largest clusters represent 93% of the total publication output in this period. ( B ) In 2011–13, the 10 largest clusters represent 92% of the total publication output in this period. The colour codes for similar clusters are maintained across the periods. However, some clusters are present in only one period. The clusters are arranged by size, reading clockwise from the top, and the legends arranged accordingly. Red triangles mark clusters that disappeared and green triangles emerging clusters.

For the last period, we also examined the structure and interrelation of clusters, using a graphical rendering, giving insight in the size, composition, and presence of subclusters ( Figure  5 ).

Document clusters’ map 2011–13. A visual presentation of documents in clusters and subclusters: the most similar documents and clusters are located closer to each other, based on the DrL two-dimensional mapping layout technique.

In this force-directed DrL graph layout, the documents and clusters are mapped to minimize the distance between the most similar documents and maximize the distance between non-linked documents. This produces a two-dimensional co-ordinate layout where the documents closest to each other share the most similarities since they share common text fragments and references. Conversely, documents and clusters on the edges of the graph have the least similarity to other documents or clusters.

Cluster 2 on gene and stem cells is dense and separate, yet touches and interacts with Cluster 5 [acute coronary syndrome (ACS) and MI]. Cluster 9 on imaging is spread out in subclusters at different locations, including one near Cluster 5 (ACS and MI), and one near Cluster 4 (heart failure). Cluster 8 (arrhythmias) is also split with one part closer to heart failure, another to anticoagulation and atrial fibrillation.

Further naming the subclusters is presently beyond reach, as it would require a lot of expert input and resources. However, linking the clusters and the topics adds granularity to the larger research areas and provides internal methodological validation of the cluster naming.

Table  2 presents the most highly associated topics in the ten largest document clusters in each period. Overall, agreement with the LDA topics is high and provides more detail on the research contained in the clusters. E.g., the cluster ‘Haemodynamics’ is now showing different areas of focus, i.e. in congenital disease, aortic, and valvular diseases; the topic ‘Arrhythmias’ is more populated with device research in the second time period compared to the first.

Cluster names and topics present within clusters

AF, atrial fibrillation; ANS, autonomic nervous system; BP, blood pressure; CABG, coronary artery bypass grafting; CRT, cardiac resynchronization therapy; CT, computed tomography; CV, cardiovascular; DES, drug-eluting stent; ECG, electrocardiogram; HF, heart failure; LV, left ventricular; NOAC, new oral anticoagulant; PTCI, percutaneous transluminal coronary intervention; RV, right ventricle; STEMI, ST elevated myocardial infarction.

The method for identification of topics in cardiovascular publication output allowed the visualization and evaluation of trends in cardiovascular research. Over a 10-year period significant shifts occur.

Identification of cardiovascular research topics through natural language processing

In cardiovascular research, topics are generally predefined in a taxonomy that can be hierarchical and/or matrix structured. The CardioScape project approach (see Introduction section) was well suited to its purpose of the analysis of 2476 project abstracts in a single time period and using an existing taxonomy has the advantage of recognizable areas of research. The bottom-up approach used here lent itself well to analysis of much larger numbers of documents and generated a topic list that represents the interests from the community during the period under study.

A recent study by the WHO working to identify cardiovascular disease research output from random sets of publications from PubMed required a significant amount of expert-based review of only a small proportion of the published articles. 17 The current approach was more comprehensive in coverage of the field, but despite reliance on advanced automated analysis, experts still had an important role in interpreting and linking concepts to validate the results.

In the current naming of topics and clusters, experts frequently used terms that connect to a classic hierarchical list in the field, including major diseases, and recognizing clinical, population, and basic discovery research. Nevertheless, the approach uncovered specific emerging areas of research such as transcatheter aortic valve implantation (TAVI), topics consistent with broad trends, such as risk stratification and evidence-based guidance, and innovation (gene and stem cell research). Some of these terms would not appear in a classic taxonomy and thus the NLP approach offers novel insights.

The present study was not attempting to classify all research but to capture and identify the most common and evolving topics over time in the cardiovascular field by using a comprehensive set of cardiovascular publications across some 5000 journals.

Emphasis on improving clinical care and risk assessment

The most represented and fast growing topics across the documents are evidence-based guidance for treatment and research on outcomes and prognosis. These result underscore the attention given to guidelines and evidence based medicine (EBM). 18–23 Part of this research is likely to represent the large number of clinical trials taking place in the cardiovascular field, 24 which over time have had a significant effect on the reduction of mortality from CVD due to establishing the effectiveness and safety of a number of drugs and medical interventions in cardiovascular disease. 25 The presence of policy related topics, such as the topics on quality of care and health economics likewise supports the focus on implementation research and a shift of focus from reducing acute mortality to care in chronic disease.

Growth of research on risk factors emphasizes the importance of preventative medicine, evident in both the topics analysis and the document cluster analysis. However, some specific blood pressure studies declined over time, perhaps reflecting the change in focus on the single risk factor of ‘blood pressure’ to a multivariable spectrum and newly identified risk factors. We have also previously shown that hypertension has moved more closely to clinical cardiovascular research over time. 26

Smaller topics illustrate crosstalk with non-cardiovascular diseases, because of shared risk factors or common methods used in research or occurrence of cardiovascular complications. The latter is particularly evident in two topics that focus on cardiovascular complications in pregnancy and in cancer.

Innovation and translation in clinical and basic science

Major diseases such as ischaemic heart disease and arrhythmias, remain present over time but shifts can be seen. There is for example, a larger focus on atrial fibrillation, in particular embolic risk, on novel treatments, such as stem cells in heart failure, and transcatheter aortic valve interventions as a dominant element within the topic of valvular heart disease. 19 Imaging is present in several topics but emerges as a cluster in its own right in the document analysis. Many of these changes are driven by technological innovation and translation.

Basic research as a whole saw its share decline, but with interesting shifts in content. Although the topic analysis and mapping identifies basic research topics as a category, there are complementarities across categories. Stem cell research, tissue engineering, and biomechanical factors saw rapid growth and are also present in clinical topics. This also applies to inflammation and diabetes. Animal models for disease are rapidly growing topics consistent with growth of translational research.

An analysis of the countries of authorship of the publications in the emerging clusters of discovery research shows that the USA leads in the number and share of publications (30%+), followed mostly by Germany, or the UK or Italy. However, for the large document cluster on genes and stem cells in 2011–13, the second most productive country is China, contributing 17.5% of the publications in this cluster (Supplementary material online, Figure S3 ).

Interestingly, inflammation, biomarkers, metabolic syndrome, obesity, and lipids are hot topics with growing research output in population, clinical and basic research, indicating integration and crosstalk across the spectrum of cardiovascular research.

Drivers of change

Technology and opportunity-driven scientific interest, but also strategic choices and funding policies are likely to influence trends in research. CardioScape studied public and charity funding in the years 2010–12 and describes major investments in clinical research. Yet the share of publication output globally for clinical research appears to be substantially larger than the share of funding for clinical research reported in CardioScape. This could be explained by clinical research funded by other sources, such as industry or local funding, which are not included in the CardioScape analysis. Also, the present data represent global output. Major research investments in China, and the emphasis on clinical research in the USA, can contribute to some of the global trends.

The slower growth in basic science could reflect a slower growth in investment. This can be absolute or relative towards the increasing costs of advanced research methodology. Another reason could be editorial pressure for more comprehensive papers that may reduce quantity to the benefit of rich content in individual papers.

Finally, growing translational research may blur the boundaries between basic and clinical research and lead to an apparent slower growth in discovery research.

Policy perspectives

Policy development is a forward looking exercise. In health research, medical needs identified by health data and expert opinion, are an important consideration. 27 Past research output helps to identify areas that may need more investment. Research funders also use input from society. 28 When assessing current priorities in cardiovascular research for the Dutch 28 and British 29 Heart Foundations we can see that research into heart failure and arrhythmias are common across their top priorities. Focus on healthy lifestyles is a top priority in the Dutch Heart Foundation as well as in the US vision and strategic agenda. 4 , 5 At the macro-level, the data presented here indicate that some of the main issues presented in these research agendas are actively pursued but others less so.

Study limitations

Limitations of studying research topics have been addressed in the bibliometric field. 8 The reliance of expert input is a limitation and potential source of bias that we tried to minimize by using mixed panels.

The current approach was not sufficiently granular to extract recent emerging topics that contain a limited number of documents. In addition, publication output is somewhat delayed vs. actual research and experts may be aware of ongoing research with still limited output. In this case, the method and dataset can be used to interrogate about specific developments (see Supplementary material online , Table S3 for data on micro-RNA and personalized medicine).

As the data set ends in 2013, very recent developments are not covered. This relates to the methodological complexity. Web of Science data including 2014 references were available mid-2015, the cardiovascular publications dataset was complete in 2016 and algorithms for analysis including re-iterative expert review required another 18 months. A similar time lag is seen in other studies that rely on data mining and processing. 9 Congress abstracts could be considered as a source to identify emerging topics but have several limitations. They are of a different nature than papers and the scope of a congress shapes content of selected abstracts. We provide a complementary survey of 3000 abstracts from the 2018 congress of the European Society of Cardiology, illustrating the strong presence of clinical research at this event, within the topics of Clusters 1 and 3–7 of Table  2 ( Supplementary material online , Figure S4 ). Two emerging topics were cardio-oncology and digital health, each representing however <25 abstracts.

In the present analysis, quality and impact of studies in a particular domain were not evaluated, though highly cited papers were part of the cluster identification. In their analysis of poorly cited papers covering 165 000 papers in 1997–2008, Ranasinghe et al . 30 noted the highest percentage of poorly cited papers in the clinical and population research category. Nevertheless, as they and others 31 have noted, citations are not the only parameter to assess impact, in particular in clinical medicine.

Conclusions

Identification of leading research topics and trends illustrates the emphasis on improving clinical medicine, and the growing interest in risk stratification and preventive medicine. Translation and innovation redefine cardiovascular research. Linking the present data with the insights of the professional community and of funders and society, may contribute to the building of a future research roadmap.

Supplementary Material

Ehz282_supplementary_data, acknowledgements.

The authors thank to the following experts for their review of the text fragments and input into the names of the topics: Dr Matthew Amoni, Dr Peter Haemers, Prof Sian Harding, Dr Frederik Helsen, Prof Gerd Heusch, Prof Tatiana Kuznetsova, Prof Tobias Op‘t Hof, Prof Frank Rademakers, Dr Sander Trenson, Dr Bert Vandenberk, and Dr Maarten Vanhaverbeke.

D.G. had a PhD Fellowship through KU Leuven.

Conflict of interest: K.R.S. is Past Editor-in-Chief of Cardiovascular Research (2013–17). W.G. is Editor-in-Chief of Scientometrics .

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Every healthcare research begins with a single step. But in the world of academia, that step often involves hours of pondering over the perfect medical research topic idea. When it comes to medical research paper topics, there's a seemingly limitless array of options that stretches as far as the mind can wander. The potential of this field is exciting but can also be challenging to explore.

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Medical research topics are the ideas or concepts related to health and medicine. They often explore new treatments, developments in diagnosis, prevention of illnesses, or even the effects of lifestyle choices. The scope of topics in medicine is vast and can include such aspects:

• Clinical medicine
• Biomedical research
• Public health
• Mental health research topics
• Medical technology
• Health services research.

Your choice should stem from your interests and existing gaps that need to be filled.

Choosing the right medical topic for a research paper is like finding a golden ticket to a successful study. Here's what makes a medicine research idea a real showstopper:

• Engagement Research should be engaging and relevant to the audience.
• Precision Good ideas are always specific, so that you can focus your research on a particular area without being too vague.
• Authenticity A good topic needs to address an issue that hasn't been studied before.
• Feasibility Ensure your topic is realistic. Good research topics in healthcare should fit within your budget, timeframe, and available resources.
• Relevance Winning medical research project topics should address current and pressing issues in healthcare.

Selecting the best idea out of multiple medicine research topics can be a daunting task, especially when you have so many fields to explore. Here are a few steps that will help you settle on a theme:

• Brainstorm and come up with as many ideas as possible.
• Narrow down your list by considering factors such as your interest and resources.
• Look for current tendencies in healthcare research.
• Consult your supervisor or a librarian to verify the pertinence of the topic that you have chosen.
• Make sure your topic is specific enough to be addressed within the scope of your project.

Once you come up with a fitting medical research topic, consider half the battle won. But in case you have difficulties creating an original title, our online paper writers prepared a list of research ideas for medical students you might like.

Below we collected various medical topics to research in your study. From groundbreaking technologies to emerging diseases, there are countless avenues to investigate. If you're on the hunt for a compelling topic, here are some of the top medical researches topics capturing attention in 2023:

• Effective strategies for medical talent acquisition and retention.
• The best methods for enhancing preventative care measures in contemporary medicine.
• The role and impact of telemedicine in reinventing healthcare management.
• Implications of artificial intelligence on diagnostics and treatment plans.
• The rising threat of antimicrobial resistance and its effects on global health.
• The link between environmental changes and public health outcomes.
• Complexities of vaccine development and human immune responses.
• Health inequities: Causes, consequences, and potential solutions.
• New treatment approaches for neurodegenerative disorders.
• A multidisciplinary approach to tackling obesity and metabolic disorders.

Navigating countless medical topics for research papers can often feel like a journey through a labyrinth. Here are some intriguing ideas that could ignite your curiosity and fuel your research:

• How does climate change impact human health?
• Communication disorders: A closer look at deafness.
• The hidden dangers of household air pollution.
• The escalating threat of diabetes in the public sphere.
• Coronavirus and how it changed the landscape of public health.
• Assessing oral health: Beyond the basics.
• Tobacco and alcohol control: A public health perspective.
• Health implications of a sedentary lifestyle.
• Urban pollution and its impact on respiratory diseases
• The role of healthy diets in disease prevention.
• Exploring the mental health impact of social media.
• How do cultural factors influence public health initiatives?
• The role of nutrition in managing chronic diseases.
• Investigating the genetics of neurodegenerative disorders.
• What are some ethical considerations in gene editing?

Exploring the depths of medicine can be an exciting experience. You'll discover that every issue has a plethora of complexities and avenues to investigate. Here are some interesting medical topics for research paper that could pique your curiosity:

• The influence of lifestyle changes on cardiovascular health.
• What are some psychological impacts of chronic illness?
• Connection between gut health and mental well-being.
• Evaluating the effectiveness of telehealth during the pandemic.
• How do genetic factors influence addiction susceptibility?
• Autoimmune diseases and their peculiarities.
• How does stress affect immune function?
• What are some health impacts of sleep disorders?
• The link between socioeconomic status and health outcomes.
• Exploring innovations in pain management.
• Analyzing implications of artificial intelligence in healthcare.
• Effect of climate change on infectious disease patterns.
• A look into advancements in cancer immunotherapy.
• Exploring the potential of stem cells in treating degenerative diseases.
• How does diet influence the progression of Alzheimer's disease?

You may be looking for simple research topics in medicine that won't take too much time and effort to complete. Explore these straightforward ideas that could make your paper stand out:

• Importance of proper sanitation in healthcare settings.
• Exploring the role of patient support groups in disease management.
• Analyzing the efficacy of physical therapy interventions.
• What are the cost-effective interventions for healthcare delivery?
• What are some effects of new pharmaceuticals?
• What are some health consequences of air pollution?
• How does meditation improve outcomes in mental health care?
• Evaluating the role of nutritionists in weight loss management.
• An analysis of trends and patterns in emerging diseases.
• Exploring alternative medicines in contemporary healthcare.
• Examining the impact of healthcare policies on public health outcomes.
• Can the use of herbs provide an effective remedy for certain illnesses?
• How does mental health stigma affect access to treatment?
• Drug abuse: Causes, consequences and prevention strategies.
• What are some psychological issues associated with chronic illnesses?

When it comes to choosing medical research topics, you need something that's striking and meaningful. Hover over these ideas to spot the fitting idea for your medical research:

• Exploring new strategies for treating neurological disorders.
• What is the role of medical ethics in modern healthcare?
• What are some implications of genetics in personalized healthcare?
• Exploring innovations in non-invasive diagnosis techniques.
• Effect of temperature on patient outcomes in critical care.
• How does air pollution influence healthcare costs?
• How do changes in lifestyle lead to better health outcomes?
• Implications of electronic health records for patient privacy.
• Role of nutritionists in disease prevention.
• How technology is being used to revolutionize healthcare?
• What are the most effective treatments for rare diseases?
• How have medical imaging techniques advanced over the years?
• Investigating potential treatments for autism spectrum disorder.
• Exploring innovative approaches to mental healthcare delivery.
• What are some implications of artificial intelligence in medical diagnosis?

Navigate through the most contentious research topics in health and explore the debate that surrounds them. Consider these thought-provoking ideas and medical controversial topics:

• Ethical implications of genetic engineering.
• Euthanasia and physician-assisted suicide - where do we draw the line?
• Are mandatory vaccinations an infringement on personal freedom or a public health necessity?
• Evaluating medical and legal perspectives on the use of medical marijuana.
• Ethical concerns around animal testing in medical research.
• How do we navigate the morality and legality of abortion?
• Should the criminal justice system focus more on mental health treatment than punishment?
• Is stem cell research a moral dilemma or a medical breakthrough?
• Ethical considerations in organ trading and transplantation.
• Who should shoulder the burden of healthcare costs?
• Is access to healthcare a privilege or a human right?
• Ethics of using placebo in clinical trials – is it justified?
• Assessing the role of Big Pharma in healthcare - is it a necessary evil?
• Can genetic screening lead to discrimination, despite its benefits?
• Should modern medicine take precedence over traditional medicine, or is there room for both?

Discover the latest studies in healthcare and explore the newest topics for a medical research paper. Below we prepared some cutting-edge topics for you to consider:

• Can gene-editing technologies such as CRISPR transform the treatment of genetic disorders?
• How does microbiome therapy potentially influence the treatment of autoimmune diseases?
• Exploring the advent of personalized medicine through genomics and precision diagnostics.
• How is virtual reality altering the landscape of surgical training and rehabilitation therapies?
• How can telehealth improve healthcare access, particularly in remote and underserved areas?
• The role of nanotechnology in developing more efficient drug delivery systems.
• What are some implications of the rising antimicrobial resistance, and where does the future of antibiotics lie?
• How are advances in non-invasive treatments changing the face of chronic disease management?
• Is precision oncology the future of cancer treatment?
• What are some implications and potential of regenerative medicine and tissue engineering?
• Can advancements in wearable technology revolutionize personal health monitoring?
• How are gut microbiota affecting our understanding and treatment of metabolic disorders?
• What role do nanobots play in medical treatments?
• Can big data analytics be used to improve the accuracy of medical diagnosis?

There are multiple medical topics to write about. But as a student, you're probably looking for something more specific. For your convenience, we divided the titles by academic levels. So, roll up your sleeves and get ready to explore these health topics for research that your professor will surely appreciate.

For students who want to investigate different aspect of healthcare, we provided these examples of ideas. Browse through these medical research topics for high school students to spot the most relevant theme:

• How does the human immune system work?
• Vaccinations as an essential tool in preventing diseases.
• A basic overview of genetic disorders.
• What makes viruses unique?
• How does the body fight off bacterial infections?
• The impact of lifestyle factors on heart health.
• Diabetes: Types, causes, and prevention strategies.
• The importance of mental health in the medical field.
• Skin health: Understanding common skin conditions like acne and eczema.
• Structure and function of the human heart.
• Role of antibiotics and how do they fight bacteria?
• Journey of a pill: From ingestion to action.
• What happens in an allergic reaction?
• How does physical exercise impact the body and mind?
• Racial disparities in healthcare and access to treatment.

At the college level, you may be asked to write a research paper on a complex issue. We prepared these health research topics for college students to help you get started on your assignment:

• Exploring the implications of health insurance reform.
• Genomic sequencing in the early detection of genetic disorders.
• Machine learning in diagnostic imaging: A new era in radiology?
• The role of diet in the prevention and management of type 2 diabetes.
• Exploring the link between circadian rhythms and health disorders.
• The role of personalized medicine in cancer treatment.
• Development and use of prosthetics in physical rehabilitation.
• Understanding autoimmune diseases: The body fighting itself.
• Addressing health disparities through community-based interventions.
• Inflammation in the development of chronic diseases.
• The rise of antibiotic-resistant bacteria: Causes and implications.
• Innovations in drug delivery systems: From nanoparticles to smart pills.
• How can we address the opioid crisis in America?
• Investigating the use of mobile technology for delivering healthcare services.
• Exploring medical implications of 3D printing technology.

We've also provided some research topics for medical students grouped by specific subjects. Check them out and pick the one you find most captivating.

Pediatrics involves the care and health of children. As such, it is a broad field ripe with interesting medical topics. Given the unique physiology needs of these younger populations, pediatric research is crucial for understanding illnesses. Below you can find captivating research topics in pediatrics:

• Exploring the impact of nutrition on childhood development.
• Assessing the effects of screen time on adolescent mental health.
• Investigating genetic factors in pediatric cancers.
• The role of vaccinations in preventing common childhood illnesses.
• Strategies for managing childhood obesity.
• The impact of prenatal exposure to drugs and alcohol on infant health.
• Development and evaluation of therapies for Autism Spectrum Disorders.
• Understanding the rise of food allergies in children.
• Advances in the treatment of congenital heart defects.
• Exploring the causes and treatment strategies for pediatric asthma.
• The impact of environmental toxins on child health.
• Evaluation of therapeutic approaches for Attention Deficit Hyperactivity Disorder (ADHD).
• Implications of early life stress on mental health in adolescence.
• The role of gut microbiota in pediatric diseases.
• Understanding the genetic basis of rare childhood disorders.

Anatomy is the study of the organization and structure of the body. It encompasses many topics for medical research papers, from bones and organs to cell structures. Consider these ideas when writing your next anatomy paper:

• The role of genetics in bone fragility disorders.
• A comparative study of the skeletal systems across different species.
• The role and function of the lymphatic system in human health.
• Investigating complexities of the human brain's structure.
• Development and growth of human muscles.
• Impact of aging on bone health and structure.
• Exploring the intricate workings of the human cardiovascular system.
• Understanding structural changes in lungs in chronic respiratory diseases.
• The anatomical basis of speech and language development.
• Neuroanatomy of pain: Understanding pain pathways and mechanisms.
• Structural adaptations of the human body for athletic performance.
• Anatomy of the human eye and its role in vision.
• How does connective tissue support body structures?
• How does endocrine system impact hormone production?
• How does female anatomy change during pregnancy?

Medical anthropology looks at health and illness from a cultural perspective. It draws on expertise from across disciplines such as biology, psychology, and sociology to better understand how medical systems can work within different communities. If you’re interested in this field, use these ideas for med research topics:

• Investigating cultural beliefs and practices surrounding childbirth.
• Impact of socioeconomic status on health outcomes in different cultures.
• Understanding the role of traditional medicine in modern healthcare systems.
• An exploration of how cultural beliefs influence mental health perceptions.
• Effect of migration on health outcomes.
• The role of diet and nutrition in health from a cultural perspective.
• Cultural competence in healthcare delivery: Challenges and opportunities.
• Intersection of gender, culture, and health.
• Impact of societal norms and values on disease prevalence.
• Health disparities among indigenous populations.
• Role of social support networks in health and wellness across cultures.
• The impact of stigma on health outcomes in HIV/AIDS patients.
• The role of cultural anthropology in global health interventions.
• Ethnobotany and its implications for drug discovery.
• Understanding health practices in post-conflict societies.

Physiology studies how living organisms function. This branch covers a range of medicine topics and ideas you might like. Here are some suggestions for your next med paper in physiology:

• How does nervous system contribute to the perception of pain?
• What physiological changes are triggered by acute and chronic stress?
• How does regular exercise influence cardiovascular health and overall well-being?
• How do hormones influence our metabolic rate and energy utilization?
• A detailed study on physiological transformations during pregnancy and lactation.
• How does the process of aging affect the function and resilience of various organs?
• Exploring the role of homeostasis in maintaining the body's internal balance.
• What are the key physiological processes involved in the sleep cycle?
• Unraveling complexities of the human digestive system from ingestion to excretion.
• How does the renal system contribute to maintaining blood pressure?
• Physiological adaptations humans undergo when living at high altitudes.
• How does dehydration disrupt normal bodily functions?
• Implications of obesity on respiratory function and efficiency.
• How does the endocrine system orchestrate growth and development?
• Investigating the neurophysiological underpinnings of memory formation and retrieval.

From understanding skin conditions to exploring new procedures, dermatological research is a crucial part of improving skin health. Look through these medical research ideas centered around dermatology:

• Investigating the causes and treatments of acne in adolescents.
• Diet and the development of psoriasis.
• Understanding genetic factors involved in atopic dermatitis.
• Skin cancer: Risk factors, prevention, and treatment strategies.
• How do environmental factors cause skin aging?
• Exploring new treatments for hair loss.
• Understanding the correlation between stress and skin conditions.
• The role of the microbiome in skin health and disease.
• New approaches in the treatment of vitiligo.
• The impact of UV radiation on skin health.
• Exploring the pathophysiology of rosacea.
• The role of telemedicine in dermatology.
• Clinical advancements in the treatment of fungal skin infections.
• The correlation between skin health and mental health.
• Advances in cosmetic dermatology: Safety and effectiveness of new procedures.

Nursing is a versatile profession that covers many areas of health care. It’s also an ever-changing field, with new research and advancements being released all the time. Here are some topics for medical research paper focusing on nursing:

• The impact of nurse-patient communication on patient outcomes.
• Exploring the effects of nurse fatigue on job performance.
• How does nurse practitioner autonomy influence patient care?
• Importance of bedside manner in nursing.
• The role of technology in nursing practice.
• Understanding challenges associated with ethical decision-making in nursing.
• How does nurse burnout affect patient safety?
• Analyzing factors contributing to nurse retention and turnover rates.
• The effects of staffing ratios on nurse and patient satisfaction.
• Exploring the role of leadership in nursing practice.
• What are implications of nurse workload on healthcare outcomes?
• The impact of health policy on nursing education and practice.
• Ethical dilemmas faced by nurses in end-of-life care.
• How does culture affect perceptions of healthcare and nursing.
• What are some effects of managed care on nurse autonomy?

>> Read more: Nursing Research Paper Topics

Primary care is the first point of contact between patients and medical professionals. This branch is often overlooked, but it’s an important area of research that can improve health outcomes in communities around the world. Check out these interesting health topics to discuss in primary care:

• Exploring the impact of primary care physician shortages on health outcomes.
• How do socio-economic factors influence health outcomes in primary care?
• Strategies to improve patient adherence to treatment.
• What are some challenges and opportunities of providing mental health services?
• The role of primary care in managing chronic diseases.
• Evaluating the effectiveness of preventive measures in primary care.
• How does patient education influence health outcomes in primary care?
• The role of health technology in improving primary care delivery.
• What are some best practices for managing multimorbidity in primary care?
• Developing effective communication strategies for diverse patient populations in primary care.
• The impact of health policy changes on care delivery.
• How can primary care practices be adapted to meet the needs of an aging population?
• Assessing the effectiveness of integrated care models.
• The role of primary care in addressing health disparities.
• Strategies for improving patient satisfaction in primary care.

Public health is an important area of research - understanding how to improve health in communities and prevent illness and injury are crucial skills for medical professionals. Here are some medical related research topics that could kick-start your next project:

• What are the causes, implications and solutions to food insecurity?
• The role of public health in the management of infectious diseases.
• Assessing the effectiveness of smoking cessation programs.
• The role of public health initiatives in combating the obesity epidemic.
• What are some policy interventions that can improve public health?
• The impact of racism and discrimination on public health outcomes.
• Exploring new models for delivering mental health services in underserved communities.
• The impact of urbanization on public health outcomes.
• Evaluating the effectiveness of school-based health education programs.
• Strategies for managing public health crises during natural disasters.
• The implications of antibiotic resistance for public health.
• How can community engagement improve public health initiatives?
• The role of public health in the prevention and control of zoonotic diseases.
• What are the effects of environmental toxins on human health?
• How can mutual efforts reduce maternal and infant mortality rates?

>> View more: Public Health Research Topics

Mental health is an important area of research, as it affects so many people around the world. Here are some medical research paper ideas to get you started on your next mental health project:

• The effectiveness of cognitive-behavioral therapy in treating anxiety disorders.
• How does social media influence adolescents' mental health?
• Exploring the link between gut health and wellbeing.
• The role of mindfulness in managing stress and enhancing mental well-being.
• Understanding the genetic factors in schizophrenia.
• How can stigma associated with mental illness be reduced in society?
• How do traumatic events influence mental health?
• Potential art therapy application in emotional health treatment.
• The role of mental health in managing chronic diseases.
• The impact of the COVID-19 pandemic on global mental health.
• Understanding the correlation between sleep deprivation and emotional wellbeing.
• Strategies for improving mental health services in rural areas.
• How can nutrition benefit mental health?
• Exploring the effectiveness of peer support in mental health recovery.
• The benefits and challenges of telepsychiatry.

>> View more: Mental Health Research Paper Topics

Medical ethics is an important direction in healthcare research. Check these fascinating health topics to research for your next paper:

• Exploring moral implications of assisted suicide.
• How do ethical considerations come into play during organ transplantation?
• The ethical conundrum of maintaining patient confidentiality in the digital age.
• The integral role of informed consent in the physician-patient relationship.
• What ethical dilemmas arise from genetic testing and gene editing technologies?
• Ethical considerations of implementing artificial intelligence in healthcare.
• Is it ethical to use placebos in clinical trials?
• Balancing individual rights and public health in the context of a pandemic.
• Navigating ethical issues surrounding end-of-life care.
• Ethical challenges involved in the rationing of limited healthcare resources.
• What ethical considerations are necessary when conducting clinical research in low-resource settings?
• Ethical debate surrounding the use of animals for medical research.
• Ethical questions raised by advancements in reproductive technologies and rights.
• What are ethical implications of mandatory vaccination policies?
• Understanding ethical dilemmas associated with using health data for research.

Medical research is an important topic for many people. Below you can find more medical research topic ideas that didn't fall in any of categories offered above.

Health research paper topics are crucial to understanding the effects of trends and developments in the medical field. Here are some ideas to get you inspired:

• How does virtual reality change physical rehabilitation?
• Investigating the effects of pollution on respiratory health.
• The effectiveness of mindfulness-based interventions in mental health.
• The role of nutrition in managing cardiovascular diseases.
• Assessing health impacts of climate change.
• Evaluating the effectiveness of health education programs in schools.
• Strategies for promoting mental health in the workplace.
• Investigating the links between diet and cognitive function.
• How does health literacy influence individual health outcomes?
• Implications of stress on immune function.
• Effectiveness of public health campaigns on smoking cessation.
• Exploring the effectiveness of herbal remedies in treating diseases.
• The role of sports in promoting a healthy lifestyle.
• Strategies to reduce the prevalence of substance abuse.
• Pros and cons of electronic record systems in healthcare.

Clinical ideas are essential for approaching healthcare from a scientific point of view. Find some medical research paper topics to cover in your project:

• Exploring the effectiveness of novel treatments in rare diseases.
• The role of biomarkers in disease diagnosis and treatment.
• How do medical interventions influence patient satisfaction?
• Exploring links between nutrition and cancer prevention.
• How do lifestyle modifications influence diabetes management?
• Understanding the implications of drug interactions.
• How does genetic testing influence medical decision-making?
• What are some challenges associated with disseminating medical evidence?
• Predicting disease progression through machine learning.
• Assessing the accuracy of various diagnostic tools.
• Implications of medical robotics and automation in healthcare.
• Evaluating the impact of patient-centered care on quality outcomes.
• Clinical trials: Challenges and opportunities.
• How can vulnerable populations access medical care?
• How can public-private partnerships benefit healthcare delivery?

Choosing healthcare research paper topics can be quite overwhelming. We hope our suggestions will help you in developing an engaging medical research topic for your upcoming project or assignment. Remember to always check with your instructor before starting any project, so that you are aware of all specific requirements.

What Are Medical Research Paper Topics?

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Two key brain systems are central to psychosis, Stanford Medicine-led study finds

When the brain has trouble filtering incoming information and predicting what’s likely to happen, psychosis can result, Stanford Medicine-led research shows.

April 11, 2024 - By Erin Digitale

People with psychosis have trouble filtering relevant information (mesh funnel) and predicting rewarding events (broken crystal ball), creating a complex inner world. Emily Moskal

Inside the brains of people with psychosis, two key systems are malfunctioning: a “filter” that directs attention toward important external events and internal thoughts, and a “predictor” composed of pathways that anticipate rewards.

Dysfunction of these systems makes it difficult to know what’s real, manifesting as hallucinations and delusions. 

The findings come from a Stanford Medicine-led study , published April 11 in  Molecular Psychiatry , that used brain scan data from children, teens and young adults with psychosis. The results confirm an existing theory of how breaks with reality occur.

“This work provides a good model for understanding the development and progression of schizophrenia, which is a challenging problem,” said lead author  Kaustubh Supekar , PhD, clinical associate professor of psychiatry and behavioral sciences.

The findings, observed in individuals with a rare genetic disease called 22q11.2 deletion syndrome who experience psychosis as well as in those with psychosis of unknown origin, advance scientists’ understanding of the underlying brain mechanisms and theoretical frameworks related to psychosis.

During psychosis, patients experience hallucinations, such as hearing voices, and hold delusional beliefs, such as thinking that people who are not real exist. Psychosis can occur on its own and isa hallmark of certain serious mental illnesses, including bipolar disorder and schizophrenia. Schizophrenia is also characterized by social withdrawal, disorganized thinking and speech, and a reduction in energy and motivation.

It is challenging to study how schizophrenia begins in the brain. The condition usually emerges in teens or young adults, most of whom soon begin taking antipsychotic medications to ease their symptoms. When researchers analyze brain scans from people with established schizophrenia, they cannot distinguish the effects of the disease from the effects of the medications. They also do not know how schizophrenia changes the brain as the disease progresses. 

To get an early view of the disease process, the Stanford Medicine team studied young people aged 6 to 39 with 22q11.2 deletion syndrome, a genetic condition with a 30% risk for psychosis, schizophrenia or both. 

Kaustubh Supekar

Brain function in 22q11.2 patients who have psychosis is similar to that in people with psychosis of unknown origin, they found. And these brain patterns matched what the researchers had previously theorized was generating psychosis symptoms.

“The brain patterns we identified support our theoretical models of how cognitive control systems malfunction in psychosis,” said senior study author  Vinod Menon , PhD, the Rachael L. and Walter F. Nichols, MD, Professor; a professor of psychiatry and behavioral sciences; and director of the  Stanford Cognitive and Systems Neuroscience Laboratory .

Thoughts that are not linked to reality can capture the brain’s cognitive control networks, he said. “This process derails the normal functioning of cognitive control, allowing intrusive thoughts to dominate, culminating in symptoms we recognize as psychosis.”

Cerebral sorting  

Normally, the brain’s cognitive filtering system — aka the salience network — works behind the scenes to selectively direct our attention to important internal thoughts and external events. With its help, we can dismiss irrational thoughts and unimportant events and focus on what’s real and meaningful to us, such as paying attention to traffic so we avoid a collision.

The ventral striatum, a small brain region, and associated brain pathways driven by dopamine, play an important role in predicting what will be rewarding or important. 

For the study, the researchers assembled as much functional MRI brain-scan data as possible from young people with 22q11.2 deletion syndrome, totaling 101 individuals scanned at three different universities. (The study also included brain scans from several comparison groups without 22q11.2 deletion syndrome: 120 people with early idiopathic psychosis, 101 people with autism, 123 with attention deficit/hyperactivity disorder and 411 healthy controls.) 

The genetic condition, characterized by deletion of part of the 22nd chromosome, affects 1 in every 2,000 to 4,000 people. In addition to the 30% risk of schizophrenia or psychosis, people with the syndrome can also have autism or attention deficit hyperactivity disorder, which is why these conditions were included in the comparison groups.

The researchers used a type of machine learning algorithm called a spatiotemporal deep neural network to characterize patterns of brain function in all patients with 22q11.2 deletion syndrome compared with healthy subjects. With a cohort of patients whose brains were scanned at the University of California, Los Angeles, they developed an algorithmic model that distinguished brain scans from people with 22q11.2 deletion syndrome versus those without it. The model predicted the syndrome with greater than 94% accuracy. They validated the model in additional groups of people with or without the genetic syndrome who had received brain scans at UC Davis and Pontificia Universidad Católica de Chile, showing that in these independent groups, the model sorted brain scans with 84% to 90% accuracy.

The researchers then used the model to investigate which brain features play the biggest role in psychosis. Prior studies of psychosis had not given consistent results, likely because their sample sizes were too small. 

Vinod Menon

Comparing brain scans from 22q11.2 deletion syndrome patients who had and did not have psychosis, the researchers showed that the brain areas contributing most to psychosis are the anterior insula (a key part of the salience network or “filter”) and the ventral striatum (the “reward predictor”); this was true for different cohorts of patients.

In comparing the brain features of people with 22q11.2 deletion syndrome and psychosis against people with psychosis of unknown origin, the model found significant overlap, indicating that these brain features are characteristic of psychosis in general.

A second mathematical model, trained to distinguish all subjects with 22q11.2 deletion syndrome and psychosis from those who have the genetic syndrome but without psychosis, selected brain scans from people with idiopathic psychosis with 77.5% accuracy, again supporting the idea that the brain’s filtering and predicting centers are key to psychosis.

Furthermore, this model was specific to psychosis: It could not classify people with idiopathic autism or ADHD.

“It was quite exciting to trace our steps back to our initial question — ‘What are the dysfunctional brain systems in schizophrenia?’ — and to discover similar patterns in this context,” Menon said. “At the neural level, the characteristics differentiating individuals with psychosis in 22q11.2 deletion syndrome are mirroring the pathways we’ve pinpointed in schizophrenia. This parallel reinforces our understanding of psychosis as a condition with identifiable and consistent brain signatures.” However, these brain signatures were not seen in people with the genetic syndrome but no psychosis, holding clues to future directions for research, he added.

Applications for treatment or prevention

In addition to supporting the scientists’ theory about how psychosis occurs, the findings have implications for understanding the condition — and possibly preventing it.

“One of my goals is to prevent or delay development of schizophrenia,” Supekar said. The fact that the new findings are consistent with the team’s prior research on which brain centers contribute most to schizophrenia in adults suggests there may be a way to prevent it, he said. “In schizophrenia, by the time of diagnosis, a lot of damage has already occurred in the brain, and it can be very difficult to change the course of the disease.”

“What we saw is that, early on, functional interactions among brain regions within the same brain systems are abnormal,” he added. “The abnormalities do not start when you are in your 20s; they are evident even when you are 7 or 8.”

Our discoveries underscore the importance of approaching people with psychosis with compassion.

The researchers plan to use existing treatments, such as transcranial magnetic stimulation or focused ultrasound, targeted at these brain centers in young people at risk of psychosis, such as those with 22q11.2 deletion syndrome or with two parents who have schizophrenia, to see if they prevent or delay the onset of the condition or lessen symptoms once they appear. 

The results also suggest that using functional MRI to monitor brain activity at the key centers could help scientists investigate how existing antipsychotic medications are working. 

Although it’s still puzzling why someone becomes untethered from reality — given how risky it seems for one’s well-being — the “how” is now understandable, Supekar said. “From a mechanistic point of view, it makes sense,” he said.

“Our discoveries underscore the importance of approaching people with psychosis with compassion,” Menon said, adding that his team hopes their work not only advances scientific understanding but also inspires a cultural shift toward empathy and support for those experiencing psychosis. 

“I recently had the privilege of engaging with individuals from our department’s early psychosis treatment group,” he said. “Their message was a clear and powerful: ‘We share more similarities than differences. Like anyone, we experience our own highs and lows.’ Their words were a heartfelt appeal for greater empathy and understanding toward those living with this condition. It was a call to view psychosis through a lens of empathy and solidarity.”

Researchers contributed to the study from UCLA, Clinica Alemana Universidad del Desarrollo, Pontificia Universidad Católica de Chile, the University of Oxford and UC Davis.

The study was funded by the Stanford Maternal and Child Health Research Institute’s Uytengsu-Hamilton 22q11 Neuropsychiatry Research Program, FONDEYCT (the National Fund for Scientific and Technological Development of the government of Chile), ANID-Chile (the Chilean National Agency for Research and Development) and the U.S. National Institutes of Health (grants AG072114, MH121069, MH085953 and MH101779).

About Stanford Medicine

Stanford Medicine is an integrated academic health system comprising the Stanford School of Medicine and adult and pediatric health care delivery systems. Together, they harness the full potential of biomedicine through collaborative research, education and clinical care for patients. For more information, please visit med.stanford.edu .

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Nanoparticle Delivery of FZD4 to Lung Endothelial Cells Inhibits Lung Cancer Progression and Metastases

Thomas Kelly

A recent breakthrough study from the lab of Tanya Kalin, MD, PhD, professor of Child Health and Internal Medicine at the University of Arizona College of Medicine – Phoenix, has shown potential to improve therapeutic outcomes for patients suffering from lung cancers.

“We have identified the novel protein FOXF1 that stabilizes blood vessels inside the lung tumors, decreases intertumoral hypoxia and prevents lung cancer metastases,” explained Dr. Kalin, the senior author on this study.

Lung cancer remains the leading cause of cancer-related mortality worldwide, according to the American Lung Association. In 2021 alone, the disease accounted for 22% of all cancer deaths. With less than a 20% five-year survival rate for patients with advanced non-small cell lung cancers, a promising treatment approach like this is desperately needed.

Dr. Kalin, who also serves as vice chair of translational research for Phoenix Children’s Center for Cancer and Blood Disorders, published the findings in EMBO Molecular Medicine . The manuscript demonstrated that FOXF1 is expressed in normal lung endothelial cells, but it is decreased in the tumor-associated vasculature of lung cancers. Using the Cancer Genome Atlas datasets, they showed that lung cancer patients with higher FOXF1 mRNA expression had increased survival compared to those with lower FOXF1 levels.

Dr. Kalin and her team then actively removed the FOXF1 gene from endothelial cells, using gene-editing technology. The effects of this were staggering. Removal of FOXF1 in their models promoted lung tumor growth and metastasis; caused functional and structural abnormalities in tumor vasculature; and led to a lack of frizzled-4 (FZD4) — a gene that participates in the Wnt/β-catenin signaling pathway, enacting a series of steps that affect the way cells and tissues develop.

Next, they increased FOXF1 gene expression in endothelial cells using a transgenic model of lung cancer. By increasing FOXF1 levels, they effectively inhibited lung tumor growth and metastasis, and stabilized tumor-associated blood vessels. They have also shown that FOXF1 directly activated FZD4, one of the Wnt/β-catenin signaling receptors.

In pursuit of more therapeutic approaches, the Dr. Kalin’s lab developed a nanoparticle delivery system to successfully deliver FZD4 to pulmonary endothelium, which decreased lung tumor growth and metastasis in pre-clinical models of lung cancer. Thus, increasing levels of FOXF1 or FZD4 — either genetically or via gene therapy — shows promise to improve therapeutic outcomes in lung cancer patients.

The studies from Dr. Kalin’s group support the use of FOXF1 — or FZD4-activating — therapies to enhance the delivery of chemotherapeutic agents or immune checkpoint inhibitors during lung cancer treatment.

“Since targeting the FOXF1/FZD4 signaling using gene therapy had efficiently decreased lung cancer progression and normalized tumor blood vessels, our next step will be to develop pharmacological approach to activate this signaling pathway and to move this therapy into clinical trials,” Dr. Kalin said.

About the College

Founded in 2007, the University of Arizona College of Medicine – Phoenix inspires and trains exemplary physicians, scientists and leaders to optimize health and health care in Arizona and beyond. By cultivating collaborative research locally and globally, the college accelerates discovery in a number of critical areas — including cancer, stroke, traumatic brain injury and cardiovascular disease. Championed as a student-centric campus, the college has graduated more than 800 physicians, all of whom received exceptional training from nine clinical partners and more than 2,700 diverse faculty members. As the anchor to the Phoenix Bioscience Core , which is projected to have an economic impact of $3.1 billion by 2025, the college prides itself on engaging with the community, fostering education, inclusion, access and advocacy.

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New research defines specific genomic changes associated with the transmissibility of the monkeypox virus

Mount Sinai scientists, in collaboration with researchers from the Carlos III Health Institute (ISCIII) in Madrid, Spain, have located and identified alterations in the monkeypox virus genome that potentially correlate with changes in the virus's transmissibility observed in the 2022 outbreak. The findings were published April 18 in Nature Communications.

Monkeypox virus (MPXV) is a double-stranded DNA virus that can infect animals and humans. MPXV causes a disease known as mpox, with symptoms that include fever, swollen lymph nodes, and a rash. Most cases are mild and tend to get better on their own; however, mpox can be very painful and may lead to permanent scarring. First encountered in 1958 in crab-eating macaque monkeys imported to Belgium, MPXV has caused sporadic human disease outbreaks since the 1970s in Central and Western Africa. In May 2022, multiple countries, including the United States, reported an increasing number of MPXV infections and associated disease, including clusters in cases potentially linked to super-spreading events in Belgium, Spain, and the United Kingdom. While the number of new cases associated with the 2022 spillover has decreased over time, cases of the disease are still occurring among unvaccinated individuals, including a current increase in Central Africa due to a new spillover. As the virus's circulation in humans increases, the risk of emergence of a more transmissible variant capable of becoming endemic in the human population increases.

"Biopreparedness and virological surveillance involves studying the causes that favor zoonotic spillover and facilitates human-to-human transmission. When we observe significant changes in basic epidemiological features of a viral agent like monkeypox, it should reinvigorate our interest in understanding those transmission conditions. The increasing number of cases currently happening in Africa, and the 2022 epidemic, should be clear alert signals," says Gustavo Palacios, PhD, Professor of Microbiology at the Icahn School of Medicine at Mount Sinai and a senior author of the study.

To carry out the study, researchers analyzed samples from 46 patients infected with MPXV whose diagnosis and sequencing were carried out at the ISCIII at the beginning of the 2022 mpox outbreak. The team performed high-quality sequencing of each study participant's complete monkeypox virus genome to determine possible correlations between genomic variations in the different groups of sequences and epidemiological links associated with the virus's ability to evolve, transmit, and infect.

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By detailing the genomic alterations within these repetitive genomic sequences and linking them to critical viral functions, researchers provide a plausible explanation for the heightened transmissibility observed during the 2022 mpox outbreak.

"These findings might be offering the first hints to help us understand the unique features of the strains associated with sustained human-to-human transmission, which has not ever been observed in these agents," says Dr. Palacios. "Better understanding of the doors that facilitate transmission of viral agents and impact their clinical presentations will enable us to develop more effective prevention and treatment strategies."

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$4.7 million award to help researchers prevent adolescent alcohol use

IU School of Medicine Apr 18, 2024

Tamika Zapolski, PhD, MS, and Zachary Adams, PhD

INDIANAPOLIS – Indiana University School of Medicine researchers recently were awarded $4.7 million from the Patient-Centered Outcomes Research Institute (PCORI) to further the study of caregiver intervention in reducing adolescent alcohol use and other substance use disorders (SUDs).

PCORI is an independent, nonprofit organization authorized by the U.S. Congress with a mission to fund patient-centered comparative clinical effectiveness research that provides patients, their caregivers and clinicians with the evidence-based information they need to make better informed health and healthcare decisions.

The funding will support a new research project to compare the effectiveness of brief interventions in the primary care setting to reduce alcohol and other substance use in adolescents. This five-year project, commencing in March 2024, is being led by co-principal investigators Zachary Adams, PhD , and Tamika Zapolski, PhD, MS , both associate professors of psychiatry at the IU School of Medicine.

“Alcohol is the most-used substance among adolescents and can lead to several negative outcomes if it isn’t identified and addressed early,” Adams said. “This funding will allow us to find the most effective and efficient treatment plan to get adolescents the help they need before it becomes a larger issue.”

More than 90% of U.S. adolescents receive care in primary care clinics, and primary care providers are among the most familiar and accessible health care professionals in both local and national communities.

IU Health and Riley Children’s Health, in partnership with the State of Indiana, are currently supporting the Pediatric Integrated Behavioral Health Initiative, led by IU School of Medicine’s Leslie Hulvershorn, MD , and Matthew Aalsma, PhD, MA , and managed by Practice Administrator Cara Jones. The initiative aims to add more behavioral health support into IU Health primary care settings, which will increase access to high-quality behavioral health care to Indiana pediatric patients. These practices will serve as the study sites for the PCORI study.

The project will study the efficacy of brief interventions with varying types of caregiver involvement and support. All enrolled adolescents will be offered “Teen Intervene,” a brief intervention that includes motivational interviewing, education, personalized feedback, goal setting, and skills for avoiding alcohol and other substance use problems. Teen Intervene can be recommended to adolescents from a standardized substance use screener completed in the primary care setting.

Zapolski said caregiver involvement is key to a successful intervention process.

“Parents and other types of caregivers can play a vital role in supporting their adolescents, but the logistics of involvement can be challenging,” she said.

To address this potential hurdle, the study will compare three approaches to caregiver involvement: no caregiver involvement, a dedicated caregiver session, and a self-paced online parenting program called “Family Check-Up Online.”

The research team aims to enroll 585 adolescents aged 12-17 from diverse sociodemographic backgrounds across 18 or more primary care clinics in rural, urban, and suburban communities in Indiana. The participants will be asked to complete online surveys and brief interviews at multiple timepoints to provide valuable insights into the effectiveness of interventions over time on outcomes including alcohol and other substance use frequency and amount, mental health, service utilization, and overall wellbeing.

To ensure the project's relevance and success, the research team will collaborate closely with a patient and provider advisory board comprising community stakeholders, youth, caregivers, and primary care clinicians. A stakeholder advisory panel of national and state-level leaders in adolescent healthcare will also provide guidance from start to finish.

“Findings from this study can be disseminated and implemented quickly in other primary care settings, helping to reduce adolescent alcohol and other substance use problems nationally,” Zapolski said.

“This study was selected for PCORI funding for its potential to answer the need for real-world evidence to enable optimal use of brief interventions to reduce and prevent alcohol use among adolescents,” said PCORI Executive Director Nakela L. Cook, MD, MPH. “We look forward to following the study’s progress and working with IU School of Medicine to share the results.”

The IU School of Medicine's commitment to the wellbeing of youth takes a significant stride forward with this innovative and comprehensive approach to addressing adolescent substance use disorders.

“These interventions could help redefine the way pediatricians and other primary care providers prevent adolescent alcohol and other substance use in Indiana and across the country,” Adams said.

Other IU investigators involved in the project include IU School of Medicine’s Brigid Marriott, PhD , and Wei Wu, PhD , and the IU School of Public Health-Bloomington’s Jon Agley, PhD, MPH .

About IU School of Medicine

The IU School of Medicine  is the largest medical school in the U.S. and is annually ranked among the top medical schools in the nation by U.S. News & World Report. The school offers high-quality medical education, access to leading medical research and rich campus life in nine Indiana cities, including rural and urban locations consistently recognized for livability. According to the Blue Ridge Institute for Medical Research, the IU School of Medicine ranks No. 13 in 2023 National Institutes of Health funding among all public medical schools in the country.

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5 facts about Hispanic Americans and health care

Hispanic Americans have long faced health care challenges in the United States, including lower health insurance coverage rates and less access to preventative care.

Language and cultural barriers, as well as higher levels of poverty, are among the social and economic factors contributing to disparate health outcomes for Hispanic Americans. These disparities were apparent during the early stages of the COVID-19 pandemic , when Hispanics were far more likely than White Americans to have died from the virus .

Pew Research Center conducted this analysis to highlight Hispanic Americans’ attitudes about and experiences with health care. We surveyed U.S. adults from Nov. 30 to Dec. 12, 2021, including 3,716 Hispanic adults (inclusive of those who identify as any race). A total of 14,497 U.S. adults completed the survey.

The survey was conducted on the Center’s American Trends Panel (ATP) and included an oversample of Black and Hispanic adults from the Ipsos KnowledgePanel. Respondents on both panels are recruited through national, random sampling of residential addresses. This way nearly all U.S. adults have a chance of selection. The survey is weighted to be representative of the U.S. adult population by gender, race, ethnicity, partisan affiliation, education and other categories. Read more about the  ATP’s methodology .

Here are the survey  questions used for this analysis , along with responses, and its methodology .

This study was informed by a group of advisers with expertise related to Black and Hispanic Americans’ attitudes and experiences in science, health, STEM education and other areas. Pew Research Center remains solely responsible for all aspects of the research, including any errors associated with its products and findings.

This analysis includes additional information from sources including KFF and the U.S. Census Bureau. Further information about these sources can be found through the links in the text.

Here are five key facts about Hispanic Americans and health care, based on a 2021 Pew Research Center survey of Hispanic adults and other sources:

Hispanic adults are less likely than other Americans to have seen a health care provider recently and to have a primary care provider. Seven-in-ten say they’ve seen a doctor or other health care provider in the past year, compared with 82% among Americans overall. Hispanics are also slightly less likely than Americans overall to say they have a primary care provider (68% vs. 76%).

Health care access among Hispanic immigrants differs markedly based on how long they have lived in the U.S. More recent arrivals are less likely than those who have been in the country longer to have seen a doctor recently and to have a primary care provider. For example, 48% of Hispanic immigrants who have been in the U.S. for a decade or less report having a primary care provider, compared with 79% among those who have been in the U.S. for more than two decades.

Recent arrivals make up a declining share of Hispanic immigrants in the U.S. And more broadly, immigrants account for a declining share of the overall U.S. Hispanic population . In 2021, they made up 32% of all Hispanic Americans, down from 37% in 2010.

Hispanic Americans are less likely than people of other racial and ethnic backgrounds to have health insurance. As of 2021, the uninsured rate among Hispanics under age 65 was 19%, according to KFF, formerly known as the Kaiser Family Foundation . That was higher than the share among Black (11%), White (7%) and Asian Americans (6%). (These figures include rates among children as well as adults.)

While comparatively high, the uninsured rate among Hispanic Americans under age 65 in 2021 was down from 33% in 2010, before the implementation of the Affordable Care Act, according to KFF.

Lower rates of health insurance coverage play a major role in Hispanic Americans’ less frequent interactions with health care providers.

The relative youth of the U.S. Hispanic population may be another factor at play. The median age of Hispanic Americans was 30 as of 2020, compared with 41 for non-Hispanic Americans, according to the U.S. Census Bureau . Among both Hispanic and non-Hispanic Americans, younger people are less likely than their elders to have seen a health care provider recently and to have a primary care provider.

Many Hispanic Americans say worse health outcomes for Hispanics are tied to occupational and structural factors. Some 53% of Hispanic adults say a major reason why Hispanic people generally have worse health outcomes is that they’re more likely to work in jobs that put them at risk for health problems. About half (48%) say a major reason is that Hispanic people have less access to quality medical care where they live.

At least four-in-ten Hispanic adults also point to communication problems arising from language or cultural differences (44%) and preexisting health conditions (40%) as major reasons. (Majorities view all of these factors as at least minor reasons for disparate health outcomes among Hispanic adults.)

The coronavirus outbreak took an especially heavy toll on Hispanic Americans when compared with White Americans. Hispanics also face higher rates of certain diseases like diabetes than some other Americans.

When it comes to progress in health outcomes for Hispanic people, 51% of Hispanic adults say health outcomes have gotten a lot or a little better over the past two decades, compared with 13% who say they’ve gotten a lot or a little worse; 34% say they’ve stayed about the same.

About a third of Hispanic Americans – including 58% of Hispanic immigrants – say they prefer to see a Spanish-speaking health care provider. Overall, 35% of Hispanic adults strongly or somewhat prefer seeing a Spanish-speaking doctor or other health care provider for routine care. A larger share (51%) say it makes no difference whether the doctor they see speaks Spanish or not. And 13% say they would rather not see a Spanish-speaking doctor.

Attitudes are broadly similar when it comes to seeing a Hispanic doctor or health care provider. A third of Hispanic adults say they would prefer to see a Hispanic doctor for routine care, while 59% say it makes no difference and 7% would rather not.

Among Hispanic adults, immigrants are much more likely than those born in the U.S. to prefer seeing a Spanish-speaking doctor (58% vs. 12%) and to prefer seeing a Hispanic doctor (47% vs. 20%). About half of Hispanic immigrants in the U.S. mostly speak and read in Spanish.

Hispanic Americans account for 19% of the U.S. population . But only 9% of the nation’s health care practitioners and technicians are Hispanic, according to a 2021 Pew Research Center analysis of federal government data . And just 7% of all U.S. physicians and surgeons and 7% of registered nurses are Hispanic.

Black Hispanic adults are more likely to report negative health care experiences than other Hispanic adults. Overall, about half of Hispanic adults (52%) say they’ve had at least one of six negative health care experiences asked about in the Center’s 2021 survey, including feeling rushed or having to speak up to get the proper care. This is similar to the share of all U.S. adults who report having at least one of these types of negative experiences.

However, there are notable differences among Hispanics by race. Hispanic Americans who identify as Black are much more likely than White Hispanic adults to have faced negative health care experiences. For instance, 52% of Black Hispanic adults say they’ve had to speak up to get proper care, compared with 31% of White Hispanic adults. And Black Hispanic adults are 15 percentage points more likely than White Hispanic adults to say they’ve received lower-quality care (37% vs. 22%).

While negative health care experiences are fairly common, most Hispanic adults have generally positive opinions about their latest health care interaction. A 56% majority say the quality of care they most recently received from doctors or other health care providers was excellent or very good, while another 28% say it was good. Fewer (14%) say the care they received was only fair or poor. Black and White Hispanic adults are about equally likely to give positive ratings of their most recent health care experience.

Note: Here are the survey  questions used for this analysis , along with responses, and its methodology .

• Health Care
• Hispanics/Latinos
• Medicine & Health

9 facts about Americans and marijuana

5 facts about black americans and health care , 8 facts about americans with disabilities, inflation, health costs, partisan cooperation among the nation’s top problems, by more than two-to-one, americans say medication abortion should be legal in their state, most popular.

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Alternative Solvents for Non-Targeted Extractables Analysis of Blood Contacting Medical Devices

2023 FDA Science Forum

When medical device materials are subjected to extraction, extractables, including impurities, processing additives and material breakdown products may be released. These extractables have potential consequence on the biological response to the device during its use. Chemical characterization analyses of extractables are followed up with toxicological risk assessments, which evaluate potential harm from exposure to the extractables.

The standard ISO 10993-18:2020, which describes chemical characterization approaches, includes the statement “Based on published research, 40 % (by volume) mixture of ethanol/water is considered an appropriate surrogate for blood and blood related substances…”; however, the published research on this approach relies on very few material-extractable systems. This can be of concern since unreliable extraction systems can underestimate concentrations of extractables, leading to incorrect conclusions or greater uncertainties in toxicological risk assessment.

The goal of this study was to evaluate considerations for creating and justifying alternative solvents for non-targeted extractables analysis of blood contacting medical devices. We explore two approaches: 1. Create simpler simulators of blood with complex protein content that can be used in extractables studies; 2. Create simple solvents that may act like blood in certain extractables studies. A panel of extraction solvents from simple solvents, such as iso-propanol or 40% ethanol/water, to aqueous albumin solution, and blood is being pursued. A panel of medical device and material extracts (e.g. polycarbonates, polyurethanes, hemodialyzers) are being analyzed with an UHPLC/UV/CAD/MS system (Dionex Ultimate 3000, Dionex Corona Ultra RS, Agilent 6540B UHD QTOF-MS, UHPLC/MS with Agilent 1290- Agilent 6495C QQQ-MS) and data generated for UV, CAD, MS and MS/MS signals. Methods were customized for certain extractables in complex extraction solvents however, screening is also performed. The initial data indicated that, binding of medical device extractables to protein containing solutions such as albumin solution can be measured. The preliminary observation is that the total DEHP bound to Albumin was on the order of 0.4 µg/mg Albumin. This ongoing work continues to expand comparison of specified extraction solvents, conditions and verifying with all LC based analytical methods. This work will be a significant step toward reducing overestimation of the toxicological risk due to exhaustive/exaggerated extraction methods.

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