biomedical presentation topics

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45 Biomedical Research Topics for You

Although choosing relevant biomedical research topics is often an arduous task for many, it shouldn’t be for you. You no longer have to worry as we have provided you with a list of topics in biomedical science in this write-up.

Biomedical research is a broad aspect of science, and it is still evolving. This aspect of science involves a variety of ways to prevent and treat diseases that lead to illness and death in people.

This article contains 45 biomedical topics. The topics were carefully selected to guide you in choosing the right topics. They can be used for presentations, seminars, or research purposes, as the case may be.

So, suppose you need topics in biomedical ethics for papers or biomedical thesis topics for various purposes. In that case, you absolutely have to keep reading! Are you ready to see our list of biomedical topics? Then, let’s roll.

Biomedical Engineering Research Topics

Biomedical engineering is the branch of engineering that deals with providing solutions to problems in medicine and biology. Biomedical engineering research is an advanced area of research. Are you considering taking up research in this direction?

Research topics in this area cannot just be coined while eating pizza. It takes a lot of hard work to think out something meaningful. However, we have made a list for you! Here is a list of biomedical engineering topics!

How to apply deep learning in biomedical engineering
Bionics: the latest discoveries and applications
The techniques of genetic engineering
The relevance of medical engineering today
How environmental engineering has affected the world

Biomedical Ethics Topics

There are ethical issues surrounding healthcare delivery, research, biotechnology, and medicine. Biomedical Ethics is fundamental to successful practice experience and is addressed by various disciplines. If you want to research this area, then you do not have to look for topics. Here’s a list of biomedical ethics for paper that you can choose from:

The fundamentals of a physician-patient relationship
How to handle disability issues as a health care sector
Resource allocation and distribution
All you need to know about coercion, consent, and or vulnerability
Ethical treatment of subjects or animals in clinical trials

Relevant Biomedical Topics

Topics in Biomedical science are numerous, but not all are relevant today. Since biomedical science is constantly evolving, newer topics are coming up. If you desire in your topic selection, read on. Here is a list of relevant biomedical topics just for you!

The replacement of gene therapy by gene editing
Revolution of vaccine development by synthetic biology
Introduction of artificial blood – the impact on the health sector
Ten things know about artificial womb
Transplanted reproductive organs and transgender birth

Biomedical Science Topics

Biomedical science is the aspect of scientific studies that focuses on applying biology and chemistry to health care. This field of science has a broad range of disciplines. If you intend to do research in this field, look at this list of research topics in biomedical science.

The role of biomechanics in health care delivery
Importance of biomaterials and regeneration engineering
The application of cell and molecular engineering to medicine
The evolution of medical instrumentation and devices
Neural engineering- the latest discoveries

Seminar Topics for Biomedical Instrumentation

Biomedical science is constantly making progress, especially in the aspect of biomedical instrumentation. This makes it worthy of a seminar presentation in schools where it is taught. However, choosing a biomedical research topic for a biomedical instrumentation seminar may not come easy. This is why we have collated five brilliant topics for biomedical instrumentation just for you. They include:

Microelectrode in neuro-transplants
Hyperbaric chamber for oxygen therapy
How concentric ring electrodes can be used to manage epilepsy
How electromagnetic interference makes cochlear implants work
Neuroprosthetics Management using Brain-computer interfaces (BCI)

Biomedical Engineering Topics for Presentation

One of the interesting aspects of biomedical science in biomedical engineering. It is the backbone that gives the biomedical science structure. Are you interested in making presentations about biomedical engineering topics? Or do you need biomedical engineering topics for paper? Get started here! We have compiled a list of biomedical engineering topics for you. Here they are:

In-the-ear device to control stuttering: the basis of its operation
How to implement the magnetic navigated catheterization
Semiconductor-cell interfaces: the rudiments of its application
The benefits of tissue engineering of muscle
The benefits of sensitive artificial skin for prosthetic arms

Hot Topics in Biomedical Research

Biomedical research is fun because it is often relatable. As interesting as it seems, choosing a topic for research doesn’t come easy at all. Yet, there are also a lot of trending events around biomedical topics. To simplify your selection process, we have written out a few of them here.

Here are some hot biomedical research topics below.

What is immunology, and what is the relevance today?
Regenerative medicine- definition, importance, and application
Myths about antibiotic resistance
Vaccine development for COVID-19
Infectious diseases now and before

Biomedical Research Topics

Biomedical research is an extensive process. It requires a lot of time, dedication, and resources. Getting a topic shouldn’t be added to that list. There are biomedical thesis topics and research topics in biomedical science for you here:

Air pollution- sources, impact, and prevention
Covid-19 vaccination- the effect on life expectancy
Hyper insomnia- what is responsible?
Alzheimer’s disease- newer treatment approaches
Introduction of MRI compatible infusion pump

Biomedical Nanotechnology Topics

Biomedical research topics and areas now include nanotechnology. Nanotechnology has extended its tentacles to medicine and has been used to treat cancer successfully. This makes it a good research area. It is good for seminar presentations. Here are some biomedical nanotechnology topics below.

The uses of functional particles and nanomaterials
Nanoparticles based drug delivery system
The incorporation of nanoporous membranes into biomedical devices
Nanostructured materials for biological sensing
Nanocrystals- imaging, transportation, and toxicity features

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We believe you have been thoroughly equipped with a list of biomedical topics. This way, you wouldn’t have to go through the stress of choosing a topic for research, seminars, or other educational purposes. Now that you have the topics at your fingertips make your choice and enjoy!

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200+ Biotechnology Research Topics: Let’s Shape the Future

In the dynamic landscape of scientific exploration, biotechnology stands at the forefront, revolutionizing the way we approach healthcare, agriculture, and environmental sustainability. This interdisciplinary field encompasses a vast array of research topics that hold the potential to reshape our world.

In this blog post, we will delve into the realm of biotechnology research topics, understanding their significance and exploring the diverse avenues that researchers are actively investigating.

Overview of Biotechnology Research

Table of Contents

Biotechnology, at its core, involves the application of biological systems, organisms, or derivatives to develop technologies and products for the benefit of humanity.

The scope of biotechnology research is broad, covering areas such as genetic engineering, biomedical engineering, environmental biotechnology, and industrial biotechnology. Its interdisciplinary nature makes it a melting pot of ideas and innovations, pushing the boundaries of what is possible.

How to Select The Best Biotechnology Research Topics?

Identify Your Interests

Start by reflecting on your own interests within the broad field of biotechnology. What aspects of biotechnology excite you the most? Identifying your passion will make the research process more engaging.

Stay Informed About Current Trends

Keep up with the latest developments and trends in biotechnology. Subscribe to scientific journals, attend conferences, and follow reputable websites to stay informed about cutting-edge research. This will help you identify gaps in knowledge or areas where advancements are needed.

Consider Societal Impact

Evaluate the potential societal impact of your chosen research topic. How does it contribute to solving real-world problems? Biotechnology has applications in healthcare, agriculture, environmental conservation, and more. Choose a topic that aligns with the broader goal of improving quality of life or addressing global challenges.

Assess Feasibility and Resources

Evaluate the feasibility of your research topic. Consider the availability of resources, including laboratory equipment, funding, and expertise. A well-defined and achievable research plan will increase the likelihood of successful outcomes.

Explore Innovation Opportunities

Look for opportunities to contribute to innovation within the field. Consider topics that push the boundaries of current knowledge, introduce novel methodologies, or explore interdisciplinary approaches. Innovation often leads to groundbreaking discoveries.

Consult with Mentors and Peers

Seek guidance from mentors, professors, or colleagues who have expertise in biotechnology. Discuss your research interests with them and gather insights. They can provide valuable advice on the feasibility and significance of your chosen topic.

Balance Specificity and Breadth

Strike a balance between biotechnology research topics that are specific enough to address a particular aspect of biotechnology and broad enough to allow for meaningful research. A topic that is too narrow may limit your research scope, while one that is too broad may lack focus.

Consider Ethical Implications

Be mindful of the ethical implications of your research. Biotechnology, especially areas like genetic engineering, can raise ethical concerns. Ensure that your chosen topic aligns with ethical standards and consider how your research may impact society.

Evaluate Industry Relevance

Consider the relevance of your research topic to the biotechnology industry. Industry-relevant research has the potential for practical applications and may attract funding and collaboration opportunities.

Stay Flexible and Open-Minded

Be open to refining or adjusting your research topic as you delve deeper into the literature and gather more information. Flexibility is key to adapting to new insights and developments in the field.

200+ Biotechnology Research Topics: Category-Wise

Genetic engineering.

CRISPR-Cas9: Recent Advances and Applications
Gene Editing for Therapeutic Purposes: Opportunities and Challenges
Precision Medicine and Personalized Genomic Therapies
Genome Sequencing Technologies: Current State and Future Prospects
Synthetic Biology: Engineering New Life Forms
Genetic Modification of Crops for Improved Yield and Resistance
Ethical Considerations in Human Genetic Engineering
Gene Therapy for Neurological Disorders
Epigenetics: Understanding the Role of Gene Regulation
CRISPR in Agriculture: Enhancing Crop Traits

Biomedical Engineering

Tissue Engineering: Creating Organs in the Lab
3D Printing in Biomedical Applications
Advances in Drug Delivery Systems
Nanotechnology in Medicine: Theranostic Approaches
Bioinformatics and Computational Biology in Biomedicine
Wearable Biomedical Devices for Health Monitoring
Stem Cell Research and Regenerative Medicine
Precision Oncology: Tailoring Cancer Treatments
Biomaterials for Biomedical Applications
Biomechanics in Biomedical Engineering

Environmental Biotechnology

Bioremediation of Polluted Environments
Waste-to-Energy Technologies: Turning Trash into Power
Sustainable Agriculture Practices Using Biotechnology
Bioaugmentation in Wastewater Treatment
Microbial Fuel Cells: Harnessing Microorganisms for Energy
Biotechnology in Conservation Biology
Phytoremediation: Plants as Environmental Cleanup Agents
Aquaponics: Integration of Aquaculture and Hydroponics
Biodiversity Monitoring Using DNA Barcoding
Algal Biofuels: A Sustainable Energy Source

Industrial Biotechnology

Enzyme Engineering for Industrial Applications
Bioprocessing and Bio-manufacturing Innovations
Industrial Applications of Microbial Biotechnology
Bio-based Materials: Eco-friendly Alternatives
Synthetic Biology for Industrial Processes
Metabolic Engineering for Chemical Production
Industrial Fermentation: Optimization and Scale-up
Biocatalysis in Pharmaceutical Industry
Advanced Bioprocess Monitoring and Control
Green Chemistry: Sustainable Practices in Industry

Emerging Trends in Biotechnology

CRISPR-Based Diagnostics: A New Era in Disease Detection
Neurobiotechnology: Advancements in Brain-Computer Interfaces
Advances in Nanotechnology for Healthcare
Computational Biology: Modeling Biological Systems
Organoids: Miniature Organs for Drug Testing
Genome Editing in Non-Human Organisms
Biotechnology and the Internet of Things (IoT)
Exosome-based Therapeutics: Potential Applications
Biohybrid Systems: Integrating Living and Artificial Components
Metagenomics: Exploring Microbial Communities

Ethical and Social Implications

Ethical Considerations in CRISPR-Based Gene Editing
Privacy Concerns in Personal Genomic Data Sharing
Biotechnology and Social Equity: Bridging the Gap
Dual-Use Dilemmas in Biotechnological Research
Informed Consent in Genetic Testing and Research
Accessibility of Biotechnological Therapies: Global Perspectives
Human Enhancement Technologies: Ethical Perspectives
Biotechnology and Cultural Perspectives on Genetic Modification
Social Impact Assessment of Biotechnological Interventions
Intellectual Property Rights in Biotechnology

Computational Biology and Bioinformatics

Machine Learning in Biomedical Data Analysis
Network Biology: Understanding Biological Systems
Structural Bioinformatics: Predicting Protein Structures
Data Mining in Genomics and Proteomics
Systems Biology Approaches in Biotechnology
Comparative Genomics: Evolutionary Insights
Bioinformatics Tools for Drug Discovery
Cloud Computing in Biomedical Research
Artificial Intelligence in Diagnostics and Treatment
Computational Approaches to Vaccine Design

Health and Medicine

Vaccines and Immunotherapy: Advancements in Disease Prevention
CRISPR-Based Therapies for Genetic Disorders
Infectious Disease Diagnostics Using Biotechnology
Telemedicine and Biotechnology Integration
Biotechnology in Rare Disease Research
Gut Microbiome and Human Health
Precision Nutrition: Personalized Diets Using Biotechnology
Biotechnology Approaches to Combat Antibiotic Resistance
Point-of-Care Diagnostics for Global Health
Biotechnology in Aging Research and Longevity

Agricultural Biotechnology

CRISPR and Gene Editing in Crop Improvement
Precision Agriculture: Integrating Technology for Crop Management
Biotechnology Solutions for Food Security
RNA Interference in Pest Control
Vertical Farming and Biotechnology
Plant-Microbe Interactions for Sustainable Agriculture
Biofortification: Enhancing Nutritional Content in Crops
Smart Farming Technologies and Biotechnology
Precision Livestock Farming Using Biotechnological Tools
Drought-Tolerant Crops: Biotechnological Approaches

Biotechnology and Education

Integrating Biotechnology into STEM Education
Virtual Labs in Biotechnology Teaching
Biotechnology Outreach Programs for Schools
Online Courses in Biotechnology: Accessibility and Quality
Hands-on Biotechnology Experiments for Students
Bioethics Education in Biotechnology Programs
Role of Internships in Biotechnology Education
Collaborative Learning in Biotechnology Classrooms
Biotechnology Education for Non-Science Majors
Addressing Gender Disparities in Biotechnology Education

Funding and Policy

Government Funding Initiatives for Biotechnology Research
Private Sector Investment in Biotechnology Ventures
Impact of Intellectual Property Policies on Biotechnology
Ethical Guidelines for Biotechnological Research
Public-Private Partnerships in Biotechnology
Regulatory Frameworks for Gene Editing Technologies
Biotechnology and Global Health Policy
Biotechnology Diplomacy: International Collaboration
Funding Challenges in Biotechnology Startups
Role of Nonprofit Organizations in Biotechnological Research

Biotechnology and the Environment

Biotechnology for Air Pollution Control
Microbial Sensors for Environmental Monitoring
Remote Sensing in Environmental Biotechnology
Climate Change Mitigation Using Biotechnology
Circular Economy and Biotechnological Innovations
Marine Biotechnology for Ocean Conservation
Bio-inspired Design for Environmental Solutions
Ecological Restoration Using Biotechnological Approaches
Impact of Biotechnology on Biodiversity
Biotechnology and Sustainable Urban Development

Biosecurity and Biosafety

Biosecurity Measures in Biotechnology Laboratories
Dual-Use Research and Ethical Considerations
Global Collaboration for Biosafety in Biotechnology
Security Risks in Gene Editing Technologies
Surveillance Technologies in Biotechnological Research
Biosecurity Education for Biotechnology Professionals
Risk Assessment in Biotechnology Research
Bioethics in Biodefense Research
Biotechnology and National Security
Public Awareness and Biosecurity in Biotechnology

Industry Applications

Biotechnology in the Pharmaceutical Industry
Bioprocessing Innovations for Drug Production
Industrial Enzymes and Their Applications
Biotechnology in Food and Beverage Production
Applications of Synthetic Biology in Industry
Biotechnology in Textile Manufacturing
Cosmetic and Personal Care Biotechnology
Biotechnological Approaches in Renewable Energy
Advanced Materials Production Using Biotechnology
Biotechnology in the Automotive Industry

Miscellaneous Topics

DNA Barcoding in Species Identification
Bioart: The Intersection of Biology and Art
Biotechnology in Forensic Science
Using Biotechnology to Preserve Cultural Heritage
Biohacking: DIY Biology and Citizen Science
Microbiome Engineering for Human Health
Environmental DNA (eDNA) for Biodiversity Monitoring
Biotechnology and Astrobiology: Searching for Life Beyond Earth
Biotechnology and Sports Science
Biotechnology and the Future of Space Exploration

Challenges and Ethical Considerations in Biotechnology Research

As biotechnology continues to advance, it brings forth a set of challenges and ethical considerations. Biosecurity concerns, especially in the context of gene editing technologies, raise questions about the responsible use of powerful tools like CRISPR.

Ethical implications of genetic manipulation, such as the creation of designer babies, demand careful consideration and international collaboration to establish guidelines and regulations.

Moreover, the environmental and social impact of biotechnological interventions must be thoroughly assessed to ensure responsible and sustainable practices.

Funding and Resources for Biotechnology Research

The pursuit of biotechnology research topics requires substantial funding and resources. Government grants and funding agencies play a pivotal role in supporting research initiatives.

Simultaneously, the private sector, including biotechnology companies and venture capitalists, invest in promising projects. Collaboration and partnerships between academia, industry, and nonprofit organizations further amplify the impact of biotechnological research.

Future Prospects of Biotechnology Research

As we look to the future, the integration of biotechnology with other scientific disciplines holds immense potential. Collaborations with fields like artificial intelligence, materials science, and robotics may lead to unprecedented breakthroughs.

The development of innovative technologies and their application to global health and sustainability challenges will likely shape the future of biotechnology.

In conclusion, biotechnology research is a dynamic and transformative force with the potential to revolutionize multiple facets of our lives. The exploration of diverse biotechnology research topics, from genetic engineering to emerging trends like synthetic biology and nanobiotechnology, highlights the breadth of possibilities within this field.

However, researchers must navigate challenges and ethical considerations to ensure that biotechnological advancements are used responsibly for the betterment of society.

With continued funding, collaboration, and a commitment to ethical practices, the future of biotechnology research holds exciting promise, propelling us towards a more sustainable and technologically advanced world.

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Biomedical Research Paper Topics

This page offers students an extensive list of biomedical research paper topics , expert advice on how to choose these topics, and guidance on how to write a compelling biomedical research paper. The guide also introduces the services of iResearchNet, an academic assistance company that caters to the unique needs of each student. Offering expert writers, custom-written works, and a host of other features, iResearchNet provides the tools and support necessary for students to excel in their biomedical research papers.

100 Biomedical Research Paper Topics

Biomedical research is a vibrant field, with an extensive range of topics drawn from various sub-disciplines. It encompasses the study of biological processes, clinical medicine, and even technology and engineering applied to the domain of healthcare. Given the sheer breadth of this field, choosing a specific topic can sometimes be overwhelming. To help you navigate this rich landscape, here is a list of biomedical research paper topics, divided into ten categories, each with ten specific topics.

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1. Genetics and Genomics

Role of genetics in rare diseases
Advances in gene editing: CRISPR technology
Human genome project: findings and implications
Genetic basis of cancer
Personalized medicine through genomics
Epigenetic modifications and disease progression
Genomic data privacy and ethical implications
Role of genetics in mental health disorders
Prenatal genetic screening and ethical considerations
Gene therapy in rare genetic disorders

2. Bioengineering and Biotechnology

Tissue engineering in regenerative medicine
Bioprinting of organs: possibilities and challenges
Role of nanotechnology in targeted drug delivery
Biosensors in disease diagnosis
Bioinformatics in drug discovery
Development and application of biomaterials
Bioremediation and environmental cleanup
Biotechnology in agriculture and food production
Therapeutic applications of stem cells
Role of biotechnology in pandemic preparedness

3. Neuroscience and Neurology

Pathophysiology of Alzheimer’s disease
Advances in Parkinson’s disease research
Role of neuroimaging in mental health diagnosis
Understanding the brain-gut axis
Neurobiology of addiction
Role of neuroplasticity in recovery from brain injury
Sleep disorders and cognitive function
Brain-computer interfaces: possibilities and ethical issues
Neural correlates of consciousness
Epigenetic influence on neurodevelopmental disorders

4. Immunology

Immune response to COVID-19
Role of immunotherapy in cancer treatment
Autoimmune diseases: causes and treatments
Vaccination and herd immunity
The hygiene hypothesis and rising allergy prevalence
Role of gut microbiota in immune function
Immunosenescence and age-related diseases
Role of inflammation in chronic diseases
Advances in HIV/AIDS research
Immunology of transplantation

5. Cardiovascular Research

Advances in understanding and treating heart failure
Role of lifestyle factors in cardiovascular disease
Cardiovascular disease in women
Hypertension: causes and treatments
Pathophysiology of atherosclerosis
Role of inflammation in heart disease
Novel biomarkers for cardiovascular disease
Personalized medicine in cardiology
Advances in cardiac surgery
Pediatric cardiovascular diseases

6. Infectious Diseases

Emerging and re-emerging infectious diseases
Role of antiviral drugs in managing viral diseases
Antibiotic resistance: causes and solutions
Zoonotic diseases and public health
Role of vaccination in preventing infectious diseases
Infectious diseases in immunocompromised individuals
Role of genomic sequencing in tracking disease outbreaks
HIV/AIDS: prevention and treatment
Advances in malaria research
Tuberculosis: challenges in prevention and treatment

7. Aging Research

Biological mechanisms of aging
Impact of lifestyle on healthy aging
Age-related macular degeneration
Role of genetics in longevity
Aging and cognitive decline
Social aspects of aging
Advances in geriatric medicine
Aging and the immune system
Role of physical activity in aging
Aging and mental health

8. Endocrinology

Advances in diabetes research
Obesity: causes and health implications
Thyroid disorders: causes and treatments
Role of hormones in mental health
Endocrine disruptors and human health
Role of insulin in metabolic syndrome
Advances in treatment of endocrine disorders
Hormones and cardiovascular health
Reproductive endocrinology
Role of endocrinology in aging

9. Mental Health Research

Advances in understanding and treating depression
Impact of stress on mental health
Advances in understanding and treating schizophrenia
Child and adolescent mental health
Mental health in the elderly
Impact of social media on mental health
Suicide prevention and mental health services
Role of psychotherapy in mental health
Mental health disparities

10. Oncology

Advances in cancer immunotherapy
Role of genomics in cancer diagnosis and treatment
Lifestyle factors and cancer risk
Early detection and prevention of cancer
Advances in targeted cancer therapies
Role of radiation therapy in cancer treatment
Cancer disparities and social determinants of health
Pediatric oncology: challenges and advances
Role of stem cells in cancer
Cancer survivorship and quality of life

These biomedical research paper topics represent a wide array of studies within the field of biomedical research, providing a robust platform to delve into the intricacies of human health and disease. Each topic offers a unique opportunity to explore the remarkable advancements in biomedical research, contributing to the ongoing quest to enhance human health and wellbeing.

Choosing Biomedical Research Paper Topics

The selection of a suitable topic for your biomedical research paper is a critical initial step that will largely influence the course of your study. The right topic will not only engage your interest but will also be robust enough to contribute to the existing body of knowledge. Here are ten tips to guide you in choosing the best topic for your biomedical research paper.

Relevance to Your Coursework and Interests: Your topic should align with the courses you have taken or are currently enrolled in. Moreover, a topic that piques your interest will motivate you to delve deeper into research, resulting in a richer, more nuanced paper.
Feasibility: Consider the practicality of your proposed research. Do you have access to the necessary resources, including the literature, laboratories, or databases needed for your study? Ensure that your topic is one that you can manage given your resources and time constraints.
Novelty and Originality: While it is essential to ensure your topic aligns with your coursework and is feasible, strive to select a topic that brings a new perspective or fresh insight to your field. Originality enhances the contribution of your research to the broader academic community.
Scope: A well-defined topic helps maintain a clear focus during your research. Avoid choosing a topic too broad that it becomes unmanageable, or so narrow that it lacks depth. Balancing the scope of your research is key to a successful paper.
Future Career Goals: Consider how your chosen topic could align with or benefit your future career goals. A topic related to your future interests can provide an early start to your career, showcasing your knowledge in that particular field.
Available Supervision and Mentoring: If you’re in a setting where you have a mentor or supervisor, choose a topic that fits within their area of expertise. This choice will ensure you have the best possible guidance during your research process.
Ethical Considerations: Some topics may involve ethical considerations, particularly those involving human subjects, animals, or sensitive data. Make sure your topic is ethically sound and you’re prepared to address any related ethical considerations.
Potential Impact: Consider the potential impact of your research on the field of biomedical science. The best research often addresses a gap in the current knowledge or has the potential to bring about change in healthcare practices or policies.
Literature Gap: Literature review can help identify gaps in the existing body of knowledge. Choosing a topic that fills in these gaps can make your research more valuable and unique.
Flexibility: While it’s essential to start with a clear topic, remain open to slight shifts or changes as your research unfolds. Your research might reveal a different angle or a more exciting question within your chosen field, so stay flexible.

Remember, choosing a topic should be an iterative process, and your initial ideas will likely evolve as you conduct a preliminary literature review and discuss your thoughts with your mentors or peers. The ultimate goal is to choose a topic that you are passionate about, as this passion will drive your work and make the research process more enjoyable and fulfilling.

How to Write a Biomedical Research Paper

Writing a biomedical research paper can be a daunting task. However, with careful planning and strategic execution, the process can be more manageable and rewarding. Below are ten tips to help guide you through the process of writing a biomedical research paper.

Understand Your Assignment: Before you begin your research or writing, make sure you understand the requirements of your assignment. Know the expected length, due date, formatting style, and any specific sections or components you need to include.
Thorough Literature Review: A comprehensive literature review allows you to understand the current knowledge in your research area and identify gaps where your research can contribute. It will help you shape your research question and place your work in context.
Clearly Define Your Research Question: A well-defined research question guides your research and keeps your writing focused. It should be clear, specific, and concise, serving as the backbone of your study.
Prepare a Detailed Outline: An outline helps organize your thoughts and create a roadmap for your paper. It should include all the sections of your research paper, such as the introduction, methods, results, discussion, and conclusion.
Follow the IMRaD Structure: Most biomedical research papers follow the IMRaD format—Introduction, Methods, Results, and Discussion. This structure facilitates the orderly and logical presentation of your research.
Use Clear and Concise Language: Biomedical research papers should be written in a clear and concise manner to ensure the reader understands the research’s purpose, methods, and findings. Avoid unnecessary jargon and ensure that complex ideas are explained clearly.
Proper Citation and Reference: Always properly cite the sources of information you use in your paper. This not only provides credit where it’s due but also allows your readers to follow your line of research. Be sure to follow the citation style specified in your assignment.
Discuss the Implications: In your discussion, go beyond simply restating your findings. Discuss the implications of your results, how they relate to previous research, and how they contribute to the existing knowledge in the field.
Proofread and Edit: Never underestimate the importance of proofreading and editing. Checking for grammatical errors, punctuation mistakes, and clarity of language can enhance the readability of your paper.
Seek Feedback Before Final Submission: Before submitting your paper, seek feedback from peers, mentors, or supervisors. Fresh eyes can often spot unclear sections or errors that you may have missed.

Writing a biomedical research paper is a significant academic endeavor, but remember that every researcher started where you are right now. It’s a process that requires time, effort, and patience. Remember, the ultimate goal is not just to get a good grade but also to contribute to the vast body of biomedical knowledge.

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150 Seminar Topics For Biomedical Engineering 2023

150 Seminar Topics For Biomedical Engineering | Biological and medical engineering is an engineering discipline that applies engineering principles and problem-solving techniques to biology and medicine to solve problems.

105 Seminar Topics For Healthcare

150 Seminar Topics For Biomedical Engineering

Artificial organs

Brain-Computer Interfaces

Medical Robotics

Advanced Prosthetics

Bioelectronic Medicines

Deep Brain Stimulation

Smart Implants

Bionic Vision

Gene Editing for Therapeutic Purposes

3D Printing in Biomedical Engineering

Wearable Health Monitoring Devices

Artificial Organs

Biomaterials for Medical Devices

Tissue Engineering and Regenerative Medicine

Neuroprosthetics

Personalized Medicine

Nanotechnology in Biomedical Engineering

Brain-Machine Interfaces

Implantable Medical Devices

Biomedical Signal Processing

Medical Image Analysis

Biomechanics of Human Movement

Biomedical Instrumentation

Computer-Aided Diagnosis

Optical Imaging in Biomedical Engineering

Ultrasound Imaging

Magnetic Resonance Imaging

Positron Emission Tomography

Computed Tomography

Biomedical Data Analytics

Big Data in Biomedical Engineering

Machine Learning in Biomedical Engineering

Artificial Intelligence in Medicine

Medical Data Mining

Telemedicine

Health Information Systems

Electronic Health Records

Health Information Exchange

Healthcare Analytics

Healthcare Quality Management

Healthcare Operations Management

Healthcare Supply Chain Management

Healthcare Finance and Economics

Healthcare Policy and Regulations

Healthcare Ethics

Biomedical Waste Management

Hospital Management

Patient Safety and Risk Management

Healthcare Marketing

Healthcare Innovation and Entrepreneurship

Biomedical Engineering in Developing Countries

Global Health

Medical Tourism

Healthcare Industry Trends

Healthcare Law and Regulations

Medical Devices Regulations

FDA and Medical Devices

Healthcare Cybersecurity

Healthcare Privacy and Data Protection

Healthcare Compliance

Medical Devices Standards

Medical Devices Risk Management

Healthcare Insurance

Healthcare Payment Systems

Healthcare Cost Analysis

Healthcare Performance Measurement

Healthcare Strategy and Planning

Healthcare Change Management

Healthcare Project Management

Healthcare Human Resource Management

Healthcare Leadership and Management

Healthcare Organizational Behavior

Healthcare Organizational Development

Healthcare Information Technology

Electronic Medical Records

Healthcare Workflow Automation

Healthcare Interoperability

Healthcare Data Governance

Healthcare Data Security

Healthcare Big Data Analytics

Healthcare Business Intelligence

Healthcare Decision Support Systems

Healthcare Predictive Analytics

Healthcare Data Visualization

Healthcare User Experience

Healthcare Mobile Apps

Healthcare Internet of Things

Healthcare Wearables

Healthcare Virtual Reality

Healthcare Augmented Reality

Healthcare Gamification

Healthcare Social Media

Healthcare Marketing Analytics

Healthcare Consumer Behavior

Healthcare Customer Relationship Management

Healthcare Branding

Healthcare Advertising

Healthcare Public Relations

Healthcare Event Management

Healthcare Crisis Management

Biomechanics and modeling of the human body

Biomaterials and tissue engineering

Bio-optical imaging

Biomedical devices and instrumentation

Biosensors and bioelectronics

Cancer detection and treatment

Cardiac imaging and diagnostics

Clinical engineering and patient safety

Computational Neuroscience

Dental biomaterials and implants

Diagnostic imaging techniques

Drug delivery and nanotechnology

Electrophysiology and neuroimaging

Environmental health and safety

Ergonomics and human factors engineering

Genetic engineering and gene therapy

Medical informatics and telemedicine

Medical robotics and automation

Medical signal processing and analysis

Medical simulation and training

Microfluidics and lab-on-a-chip devices

Neural engineering and brain-machine interfaces

Neuromodulation and neuromonitoring

Orthopedic biomechanics and implants

Personalized medicine and genomics

Pharmaceutical engineering and drug design

Physiological modeling and control

Point-of-care diagnostics and monitoring

Prosthetics and assistive devices

Regenerative medicine and stem cells

Rehabilitation engineering and mobility devices

Sensory and motor systems

Sports medicine and performance

Surgical robotics and navigation

Synthetic biology and metabolic engineering

Systems biology and computational modeling

Tissue mechanics and mechanobiology

Ultrasound imaging and therapy

Wearable sensors and devices

3D printing in biomedical engineering

Artificial intelligence in healthcare

Augmented reality and virtual reality in medicine

Bio-inspired robotics and materials

Bioinformatics and data analysis

Biomimetic materials and surfaces

Biosurveillance and disease outbreak detection

Brain-computer interfaces

Cancer genomics and personalized therapy

Cardiovascular Engineering and electrophysiology.

70 Seminar Topics For Agriculture

Question Papers
Scholarships

List of 200+ Healthcare & Medical Presentation Topics

This is a comprehensive list of more than 200 healthcare and Medical Presentation Topics is useful for Powerpoint PPT & Paper Presentations. These topics can be used for webinars, Seminars, conferences, oral presentations, speeches and classroom presentations

Students of MBBS, BAMS, BHMS, B Pharmacy, D Pharmacy, M Pharmacy, Bio-Technology and other medical and healthcare streams can get the benefit of this list of medical presentation topics.

Below is the list of Healthcare & Medical Topics for Presentation.

Abdominal Trauma

Abuse and Neglect

Adult Day Care

Ageing/Geriatrics

Air and community health

Airway Management and Ventilation

Allergies – Anaphylaxis

Alzheimer’s Disease

Ambulance Operations

Artificial respiration

Analysis of qualitative data

Analysis of quantitative data and approaching the families in Community

Attention Deficit Disorder

Aquatic Therapy

Assessment-Based Management

Autonomic nervous system & Peripheral nervous system

Behavioural sciences & their relevance to Community Health

Babysitting

Bacterial Vaginosis

Behavioural and Psychiatric Disorders

Biochemical characteristics of cancer

Biosimulation

Bio-statistics in Health

Bioterrorism – WMD

Birth Control for Moms

Blood Borne Pathogens

Breast Cancer

Breastfeeding & weaning & Baby-Friendly Hospitals Breastfeeding promotion

Cancer/Radiation Therapy

Cardiovascular system

Case-Control Studies

Cataract Surgery

Causation & association

Central nervous system

Childhood Obesity

Children’s Health

Cholesterol

Clinical forensic medicine

Clinical Decision Making

Cohort studies

Collection of data – sampling methods, the sample size

Collection of vital statistics in the community

Commonwealth Health Corporation

Commonwealth Health Foundation

Commonwealth Health Free Clinic

Communications

Community organization in rural and urban areas – community participation

Concepts in Community Health

Creatinine Blood Test

Crime Scene Awareness

Cross-Sectional Anatomy

Culture, habits, customs and community health

Customised treatments

Deep Vein Thrombosis Awareness

Demographic trends in India.

Designing interview schedules – KABP studies

DNA repair mechanisms and related disorders

DNA Replication,

DNA Sequencing for Routine Checkups

DNA Transcription

Documentation

Drive-Thru Clinics

Ears, Nose and Throat Disorders

EMS Systems Roles and Responsibilities

Endocrine System and Individual Endocrine Glands

Endocrinology

Endoscopic Ultrasound: New Diagnostic and Therapeutic Applications

Environment and community health

Environmental toxicology

Environmental Conditions

Epidemiology as a tool for community health

Expanding Surgical Options for Lung Cancer Treatments

Eye banking & ethics in ophthalmology

Family and its role in health and disease

Family planning methods: permanent methods

Family planning methods: spacing methods

The fate of the antigen-antibody complex

Fertility & fertility-related statistics

Fitness/Exercise

Food habits, customs related to pregnancy, childbirth & lactation

Food Hygiene, Food Adulteration & Food poisoning

Forensic medicine & toxicology

Forensic psychiatry

Gastroenterology

Gastrointestinal System

Genetic Engineering: Recombinant DNA technology

Gynaecology

Hazardous Materials Incidents

Head – Facial Trauma

Health care of special groups: Adolescents & School Children

Health Education Tools & Audio-visual aids

Health hazards faced by agricultural workers

Health Planning in India

Health problem associated with urbanization & industrialization

Health seeking behaviour – barriers to health

The health situation in India

Healthcare Careers

Healthy Lifestyle

Heart Attacks in Women

Heart Disease

Heart Disease & Stroke Risk Factors

Haematology

Haemorrhage and Shock

Haemorrhoids

High Blood Pressure

High-risk strategy & risk factors in pregnancy & childbirth

Histology of various organs/organ systems

History of The Medical Center

History Taking

Home Health Care

Home Medical Equipment

Hospitals at home

Human sexuality; sex and marriage counselling

Hybrid Approach to Coronary Artery Disease

Hypothermia and its clinical applications

IEC & Health Education Strategies

Illness and Injury Prevention

Immunization for international travel

Indoor environment and health

Industrial toxic exposures

Infant & Child Mortality

Infant Care (Safety, CPR, Birth)

Infectious Diseases

Infectious – Communicable Diseases

Introduction to Maternal & Child Health

Jet-Set & Suture

Joint Replacement

Kidney Failure

LASIK (Eye Procedure)

Life tables and life table techniques for evaluation of family planning methods

Life Span Development

Manage Kids’ Diabetes

Massage Therapy

Measurement of Nutritional Status of Community

Introduction to Family Health Advisory Service

Measuring the burden of disease in the community

Measuring vital events in the community

Medical Equipment

Medical Ethics:

Medical Incident Command

Medical jurisprudence

Medical/Legal Issues

Medication Errors/Drug Interactions

Medico-social problems, beliefs and practices related to acute and chronic diseases

Memory enhancement

Men’s Health

Multiple Sclerosis

Musculoskeletal Trauma

Nanorobotics

National Family Welfare Programme – 2;

National Family Welfare Programme – I

National health programmes for the control of communicable/non-communicable diseases

National Population Policy

A natural history of disease and levels of prevention

Neonatology

Neuro Anatomy

Neuromuscular transmission

The normal distribution, Bi-nominal distribution & poison Distribution

Nuclear Medicine (PET Imaging and Radiation Safety)

Nutrition Programmes in India

Nutritional requirements & sources

Osteoporosis

Parenting an ADHD Child

Pathophysiology

Patient Assessment

Patients with Special Challenges

Paediatrics

Pharmacology

Physiological effects of yoga

Planning & Evaluation of Health Education Programmes

Pneumoconiosis

Preserving Fertility in Cancer Survivors

Prevention of occupational diseases & ESI

Principles of bioelectricity

Probabilities and conditional probabilities

Prostate Cancer: Should We Be Screening?

Protein-energy malnutrition, growth monitoring & promotion

Pulmonary Emergency

Reproductive and Child Health Programme

Rescue Awareness and Operations

Review of the Human Body

Rheumatoid Arthritis

Road Traffic Accidents

Senior Health

Sleep and Pulmonary Disorders

Sleep is the new sex

Socio-economic measurement status and its role in community health

Soft Tissue Trauma

Special Sensory Organs

Spinal Trauma

Spirituality & Health

Sports Injuries and Treatment

Stereotactic Body Radiation Therapy Offers Option to High-Risk Surgery Patients

Stress Management

Stroke/Aneurysms

Survey methods and interview techniques in community Health

Techniques of Physical Examination

Testicular & Prostate Cancer

Tests of significance of statistical hypothesis

The next pandemic

The yogic practices

The Well-Being of the Paramedic

Therapeutic Communications

Thoracic Trauma

Trauma Systems and Mechanism of Injury

Vaccines for All Ages

Varicose Veins

Vascular Disease/Surgery

Venous Access and Medication Administration

Waste disposal

Water and community health

When to Call 911

Women’s Health

Work Injury Management

Working environment and community health

Worksite Wellness

Xenobiotics

Yoga in health and disease

Hope this list of healthcare and medical presentation topics will help you prepare stunning presentations for school, college and other power-point presentations.

For more presentation ideas check this article – 1000+ presentation topic ideas

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School of Biomedical Sciences

Biomedical research themes & projects.

The School’s diverse research themes bring together researchers from the social sciences, epidemiology and public health, preventive, clinical and primary care medicine and from basic and applied sciences.

Cancer in Biomedicine

Characterising the molecular mechanisms responsible for cancer progression, predisposition and resistance to treatment.

Cardio-Respiratory

Focusing on the impact of diseases and adverse impact on cardio-respiratory function.

Cell Signalling

Researching cell signaling pathways and their importance in conveying information among cells to assist in understanding the development of a variety of human diseases.

Cellular Imaging & Structural Biology

Applying cellular imaging and structural biology expertise across a wide range of biomedical research programs. Platforms include fluorescence, live imaging, 2-photon imaging, transmission and scanning electron microscopy as well as whole body imaging and imaging mass spectroscopy.

Infection & Immunity

Focusing on the mechanisms of infection and immunity and development of new ways to control and treat infectious diseases - from molecular analysis of bacterial and viral infections to the development and function of the immune system.

Molecular Mechanisms of Disease

Modelling human diseases in experimental systems and analysing cells and tissues to gain insights into the underlying fundamental mechanisms of a range of diseases affecting the nervous system, respiratory system, muscle diseases and infectious disease.

Biomedical Neuroscience

Seeking to understand fundamental biological mechanisms in order to develop new treatments for injury and disease states, across neuroscience, cell and developmental biology, and anatomical sciences.

Characterising cellular and molecular mechanisms that underlie stem cell behaviour in development and disease, leading to the identification and characterisation of innovative biomarkers and therapeutic targets.

Systems Biology

Making quantitative measurements and computational analysis of the interacting components in systems biology using genomics, proteomics, bioinformatics, metabolomics and mass spectrometry.

Therapeutics & Translation

The translation of discoveries in Biomedical Sciences across clinical and commercial settings.

Scholarship of Teaching and Learning

Bringing together teaching specialists and academics across the School focused on improving student learning, outcomes, experiences and engagement across the biomedical sciences.

Research Projects by theme

Our researchers are undertaking world-class research across a wide range of health and social issues in a diverse range of settings.

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Faculty of Medicine, Dentistry and Health Sciences
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Topics in Bioengineering (TIB)

Harvard University's Bioengineering Seminar Series

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Topics in Bioengineering (TIB) is a student-led seminar series within the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS). Speakers are invited from academia, government, and industry to present cutting-edge research and topics within bioengineering.

TIB is a in-person/hybrid zoom seminar series. Speakers have the selection of either presenting to an in-person only, zoom only, or hybrid in-person/zoom audience.

Follow TIB on #TopicsBioEng

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Tumor necrosis factor-inducible gene 6 protein and its derived peptide ameliorate liver fibrosis by repressing CD44 activation in mice with alcohol-related liver disease

Alcohol-related liver disease (ALD) is a major health concern worldwide, but effective therapeutics for ALD are still lacking. Tumor necrosis factor-inducible gene 6 protein (TSG-6), a cytokine released from m...

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Characterization of the genetic variation and evolutionary divergence of the CLEC18 family

The C-type lectin family 18 (CLEC18) with lipid and glycan binding capabilities is important to metabolic regulation and innate immune responses against viral infection. However, human CLEC18 comprises three p...

Pivotal functions and impact of long con-coding RNAs on cellular processes and genome integrity

Recent advances in uncovering the mysteries of the human genome suggest that long non-coding RNAs (lncRNAs) are important regulatory components. Although lncRNAs are known to affect gene transcription, their m...

Somatic PDGFRB activating variants promote smooth muscle cell phenotype modulation in intracranial fusiform aneurysm

The fusiform aneurysm is a nonsaccular dilatation affecting the entire vessel wall over a short distance. Although PDGFRB somatic variants have been identified in fusiform intracranial aneurysms, the molecular...

A G-quadruplex-binding platinum complex induces cancer mitochondrial dysfunction through dual-targeting mitochondrial and nuclear G4 enriched genome

G-quadruplex DNA (G4) is a non-canonical structure forming in guanine-rich regions, which play a vital role in cancer biology and are now being acknowledged in both nuclear and mitochondrial (mt) genome. Howev...

Excess glucose alone depress young mesenchymal stromal/stem cell osteogenesis and mitochondria activity within hours/days via NAD + /SIRT1 axis

The impact of global overconsumption of simple sugars on bone health, which peaks in adolescence/early adulthood and correlates with osteoporosis (OP) and fracture risk decades, is unclear. Mesenchymal stromal...

Contribution of extracellular vesicles for the pathogenesis of retinal diseases: shedding light on blood-retinal barrier dysfunction

Retinal degenerative diseases, including diabetic retinopathy (DR) and age-related macular degeneration (AMD), loom as threats to vision, causing detrimental effects on the structure and function of the retina...

Exploiting urine-derived induced pluripotent stem cells for advancing precision medicine in cell therapy, disease modeling, and drug testing

The field of regenerative medicine has witnessed remarkable advancements with the emergence of induced pluripotent stem cells (iPSCs) derived from a variety of sources. Among these, urine-derived induced pluri...

Targeting cathepsin S promotes activation of OLF1-BDNF/TrkB axis to enhance cognitive function

Cathepsin S (CTSS) is a cysteine protease that played diverse roles in immunity, tumor metastasis, aging and other pathological alterations. At the cellular level, increased CTSS levels have been associated wi...

Campylobacter jejuni virulence factors: update on emerging issues and trends

Campylobacter jejuni is a very common cause of gastroenteritis, and is frequently transmitted to humans through contaminated food products or water. Importantly, C. jejuni infections have a range of short- and l...

Membrane lipid remodeling eradicates Helicobacter pylori by manipulating the cholesteryl 6'-acylglucoside biosynthesis

Helicobacter pylori , the main cause of various gastric diseases, infects approximately half of the human population. This pathogen is auxotrophic for cholesterol which it converts to various cholesteryl α-glucosi...

Dengue virus pathogenesis and host molecular machineries

Dengue viruses (DENV) are positive-stranded RNA viruses belonging to the Flaviviridae family. DENV is the causative agent of dengue, the most rapidly spreading viral disease transmitted by mosquitoes. Each yea...

Targeting NLRP3 signaling reduces myocarditis-induced arrhythmogenesis and cardiac remodeling

Myocarditis substantially increases the risk of ventricular arrhythmia. Approximately 30% of all ventricular arrhythmia cases in patients with myocarditis originate from the right ventricular outflow tract (RV...

T cell expressions of aberrant gene signatures and Co-inhibitory receptors (Co-IRs) as predictors of renal damage and lupus disease activity

Systemic lupus erythematosus (SLE) is distinguished by an extensive range of clinical heterogeneity with unpredictable disease flares and organ damage. This research investigates the potential of aberrant sign...

Applications of peptides in nanosystems for diagnosing and managing bacterial sepsis

Sepsis represents a critical medical condition stemming from an imbalanced host immune response to infections, which is linked to a significant burden of disease. Despite substantial efforts in laboratory and ...

Enhancement of NETosis by ACE2-cross-reactive anti-SARS-CoV-2 RBD antibodies in patients with COVID-19

High levels of neutrophil extracellular trap (NET) formation or NETosis and autoantibodies are related to poor prognosis and disease severity of COVID-19 patients. Human angiotensin-converting enzyme 2 (ACE2) ...

Attenuating mitochondrial dysfunction and morphological disruption with PT320 delays dopamine degeneration in MitoPark mice

Mitochondria are essential organelles involved in cellular energy production. Changes in mitochondrial function can lead to dysfunction and cell death in aging and age-related disorders. Recent research sugges...

Longitudinal alterations in brain perfusion and vascular reactivity in the zQ175DN mouse model of Huntington’s disease

Huntington’s disease (HD) is marked by a CAG-repeat expansion in the huntingtin gene that causes neuronal dysfunction and loss, affecting mainly the striatum and the cortex. Alterations in the neurovascular co...

Antimicrobial peptide thanatin fused endolysin PA90 (Tha-PA90) for the control of Acinetobacter baumannii infection in mouse model

This study addresses the urgent need for infection control agents driven by the rise of drug-resistant pathogens such as Acinetobacter baumannii . Our primary aim was to develop and assess a novel endolysin, Tha-P...

Correction: A novel HIF1α-STIL-FOXM1 axis regulates tumor metastasis

The original article was published in Journal of Biomedical Science 2022 29 :24

Significance of hepatitis B virus capsid dephosphorylation via polymerase

It is generally believed that hepatitis B virus (HBV) core protein (HBc) dephosphorylation (de-P) is important for viral DNA synthesis and virion secretion. HBV polymerase contains four domains for terminal pr...

Association of TRAIL receptor with phosphatase SHP-1 enables repressing T cell receptor signaling and T cell activation through inactivating Lck

T cell receptor (TCR) signaling and T cell activation are tightly regulated by gatekeepers to maintain immune tolerance and avoid autoimmunity. The TRAIL receptor (TRAIL-R) is a TNF-family death receptor that ...

Improving CRISPR–Cas9 directed faithful transgene integration outcomes by reducing unwanted random DNA integration

The field of genome editing has been revolutionized by the development of an easily programmable editing tool, the CRISPR–Cas9. Despite its promise, off-target activity of Cas9 posed a great disadvantage for g...

A matter of new life and cell death: programmed cell death in the mammalian ovary

The mammalian ovary is a unique organ that displays a distinctive feature of cyclic changes throughout the entire reproductive period. The estrous/menstrual cycles are associated with drastic functional and mo...

Engineered extracellular vesicles carrying let-7a-5p for alleviating inflammation in acute lung injury

Acute lung injury (ALI) is a life-threatening respiratory condition characterized by severe inflammation and lung tissue damage, frequently causing rapid respiratory failure and long-term complications. The mi...

The rise of big data: deep sequencing-driven computational methods are transforming the landscape of synthetic antibody design

Synthetic antibodies (Abs) represent a category of artificial proteins capable of closely emulating the functions of natural Abs. Their in vitro production eliminates the need for an immunological response, st...

Tick-borne encephalitis virus transmitted singly and in duo with Borrelia burgdorferi sensu lato and Anaplasma phagocytophilum bacteria by ticks as pathogens modifying lipid metabolism in human blood

Ticks are vectors of various pathogens, including tick-borne encephalitis virus causing TBE and bacteria such as Borrelia burgdorferi sensu lato and Anaplasma phagocytophilum causing e.g. viral-bacterial co-infec...

Integration of transcription regulation and functional genomic data reveals lncRNA SNHG6’s role in hematopoietic differentiation and leukemia

Long non-coding RNAs (lncRNAs) are pivotal players in cellular processes, and their unique cell-type specific expression patterns render them attractive biomarkers and therapeutic targets. Yet, the functional ...

Reduced interleukin-18 secretion by human monocytic cells in response to infections with hyper-virulent Streptococcus pyogenes

Streptococcus pyogenes (group A streptococcus, GAS) causes a variety of diseases ranging from mild superficial infections of the throat and skin to severe invasive infections, such as necrotizing soft tissue infe...

Metabolism-regulating non-coding RNAs in breast cancer: roles, mechanisms and clinical applications

Breast cancer is one of the most common malignancies that pose a serious threat to women's health. Reprogramming of energy metabolism is a major feature of the malignant transformation of breast cancer. Compar...

Genetic and pharmacologic p32-inhibition rescue CHCHD2-linked Parkinson’s disease phenotypes in vivo and in cell models

Mutations in CHCHD2 have been linked to Parkinson’s disease, however, their exact pathophysiologic roles are unclear. The p32 protein has been suggested to interact with CHCHD2, however, the physiological functio...

The role of pregnancy associated plasma protein-A in triple negative breast cancer: a promising target for achieving clinical benefits

Pregnancy associated plasma protein-A (PAPP-A) plays an integral role in breast cancer (BC), especially triple negative breast cancer (TNBC). This subtype accounts for the most aggressive BC, possesses high tu...

Translational research on drug development and biomarker discovery for hepatocellular carcinoma

Translational research plays a key role in drug development and biomarker discovery for hepatocellular carcinoma (HCC). However, unique challenges exist in this field because of the limited availability of hum...

Germline mutations of homologous recombination genes and clinical outcomes in pancreatic cancer: a multicenter study in Taiwan

Cancer susceptibility germline mutations are associated with pancreatic ductal adenocarcinoma (PDAC). However, the hereditary status of PDAC and its impact on survival is largely unknown in the Asian population.

Rab37 mediates trafficking and membrane presentation of PD-1 to sustain T cell exhaustion in lung cancer

Programmed cell death protein 1 (PD-1) is an immune checkpoint receptor expressed on the surface of T cells. High expression of PD-1 leads to T-cell dysfunction in the tumor microenvironment (TME). However, th...

FLT3L-induced virtual memory CD8 T cells engage the immune system against tumors

Previous research in FMS-like tyrosine kinase 3 ligands (FLT3L) has primarily focused on their potential to generate dendritic cells (DCs) from bone marrow progenitors, with a limited understanding of how thes...

Promising antibacterial efficacy of arenicin peptides against the emerging opportunistic pathogen Mycobacterium abscessus

Mycobacterium abscessus , a fast-growing non-tuberculous mycobacterium, is an emerging opportunistic pathogen responsible for chronic bronchopulmonary infections in people with respiratory diseases such as cystic ...

Targeting MDM2 in malignancies is a promising strategy for overcoming resistance to anticancer immunotherapy

MDM2 has been established as a biomarker indicating poor prognosis for individuals undergoing immune checkpoint inhibitor (ICI) treatment for different malignancies by various pancancer studies. Specifically, ...

Mechanisms and functions of SUMOylation in health and disease: a review focusing on immune cells

SUMOylation, which is a type of post-translational modification that involves covalent conjugation of small ubiquitin-like modifier (SUMO) proteins to target substrates, regulates various important molecular a...

Hesperetin activates CISD2 to attenuate senescence in human keratinocytes from an older person and rejuvenates naturally aged skin in mice

CDGSH iron-sulfur domain-containing protein 2 (CISD2), a pro-longevity gene, mediates healthspan in mammals. CISD2 is down-regulated during aging. Furthermore, a persistently high level of CISD2 promotes longe...

Plectin plays a role in the migration and volume regulation of astrocytes: a potential biomarker of glioblastoma

The expression of aquaporin 4 (AQP4) and intermediate filament (IF) proteins is altered in malignant glioblastoma (GBM), yet the expression of the major IF-based cytolinker, plectin (PLEC), and its contributio...

Modelling the complex nature of the tumor microenvironment: 3D tumor spheroids as an evolving tool

Cancer remains a serious burden in society and while the pace in the development of novel and more effective therapeutics is increasing, testing platforms that faithfully mimic the tumor microenvironment are l...

TEM1/endosialin/CD248 promotes pathologic scarring and TGF-β activity through its receptor stability in dermal fibroblasts

Pathologic scars, including keloids and hypertrophic scars, represent a common form of exaggerated cutaneous scarring that is difficult to prevent or treat effectively. Additionally, the pathobiology of pathol...

Physiology and pharmacological targeting of phase separation

Liquid–liquid phase separation (LLPS) in biology describes a process by which proteins form membraneless condensates within a cellular compartment when conditions are met, including the concentration and postt...

Inactivation of pentraxin 3 suppresses M2-like macrophage activity and immunosuppression in colon cancer

The tumor microenvironment is characterized by inflammation-like and immunosuppression situations. Although cancer-associated fibroblasts (CAFs) are among the major stromal cell types in various solid cancers,...

Engineered EVs with pathogen proteins: promising vaccine alternatives to LNP-mRNA vaccines

Extracellular vesicles (EVs) are tiny, lipid membrane-bound structures that are released by most cells. They play a vital role in facilitating intercellular communication by delivering bioactive cargoes to rec...

Attenuation of neurovirulence of chikungunya virus by a single amino acid mutation in viral E2 envelope protein

Chikungunya virus (CHIKV) has reemerged as a major public health concern, causing chikungunya fever with increasing cases and neurological complications.

Scaffold-based 3D cell culture models in cancer research

Three-dimensional (3D) cell cultures have emerged as valuable tools in cancer research, offering significant advantages over traditional two-dimensional (2D) cell culture systems. In 3D cell cultures, cancer c...

Therapeutic antibodies for the prevention and treatment of cancer

The developments of antibodies for cancer therapeutics have made remarkable success in recent years. There are multiple factors contributing to the success of the biological molecule including origin of the an...

Immune evasion in cell-based immunotherapy: unraveling challenges and novel strategies

Cell-based immunotherapies (CBIs), notably exemplified by chimeric antigen receptor (CAR)-engineered T (CAR-T) cell therapy, have emerged as groundbreaking approaches for cancer therapy. Nevertheless, akin to ...

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Journal of Biomedical Science is supported by the National Science and Technology Council (NSTC) , Taiwan.

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2022 Citation Impact 11.0 - 2-year Impact Factor 10.9 - 5-year Impact Factor 2.367 - SNIP (Source Normalized Impact per Paper) 2.520 - SJR (SCImago Journal Rank)

2023 Speed 14 days submission to first editorial decision for all manuscripts (Median) 107 days submission to accept (Median)

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Journal of Biomedical Science

ISSN: 1423-0127

Submission enquiries: Access here and click Contact Us
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Stanford Center for Biomedical Ethics

Core topics seminar.

SCBE hosts a Core Topics in Biomedical Ethics Seminar Series twice monthly. In Core Topics, fellows and faculty will present on fundamental topics in clinical and research ethics. The format of each seminar is roughly two “classic” readings circulated prior to the session with a short (30-minute) presentation that includes 3 discussion questions.

Research Ethics:

1. Vulnerable Research Subjects

2. Do we Own Our Bodies?: Informed Consent, Ownership, and Use of Biological Samples

3. Informed Consent: Approaches to Consent in Biospecimens and Data

4. Incidental/Secondary Findings in Research Settings

5. First Use of Research Protocols in Humans

6. The Ethics of Learning Healthcare Systems

7. Human Gene Therapy or Gene Transfer

8. Data Ethics

Clinical Ethics:

1. Shared Decision-Making

2. Truth Telling in Medicine

3. Confidentiality & Duty to Warn

4. Transplantation

5. Rationing

6. End of Life

7. Futility

8. Physician-Aid-in-Dying (PAD) & Euthanasia

Core Research Ethics Topics
Core Clinical Ethics Topics

1. Vulnerable Research Subjects

· Kenneth Kipnis, “Vulnerability in Research Subjects: A Bioethical Taxonomy” 2006

· Levine C, Faden R, Grady C, Hammerschmidt D, Eckenwiler L and Sugarman J, The Limitations of ‘Vulnerability’ as a Protection for Human Research Participants,” The American Journal of Bioethics Vol. 4, no. 3 (2004):44-49.

· Susan M. Reverby, “Ethical Failures and History Lessons: The U.S. Public Health Service Research Studies in Tuskegee and Guatemala” Public Health Reviews Vol. 34, No 1, (2012):1-18.

· Willowbrook chapter from Emanuel Oxford book

2. Do We Own Our Bodies? Informed Consent, Ownership, and Use of Biological Samples

· Nanibaa’ A. Garrison, “Genomic Justice for Native Americans: Impact of the Havasupai Case on Genetic Research” Sci Technol Human Values 38, no. 2 (2013): 201–223.

· Michelle Huckaby Lewis, “Lessons from the Residual Newborn Screening Dried Blood Sample Litigation” JLME Vol. 43, (2015): 32-35.

· R Alta Charo, “Body of Research — Ownership and Use of Human Tissue” NEJM Vol. 355 (2006): 1517-19.

· Laura M. Beskow, “Lessons from HeLa Cells: The Ethics and Policy of Biospecimens” Annu Rev Genomics Hum Genet Vol. 17 (2016): 395–417.

· Havasupai Tribe v. Arizona Bd. of Regents, 204 P.3d 1063 (Ariz. Ct. App. 2008)

· Moore v. Regents of University of California, 793 P.2d 479 (Cal. 1990)

· Washington University v. Catalona, 437 F. Supp. 2d 985 (E.D. Mo. 2006)

· Beleno et al v. Texas Department of State Health Services et al Texas Western District Court, Case No. 5:09-cv-00188

3. Approaches to Consent in Biospecimens and Data

· Rotimi C, et al. “Community Engagement and Informed Consent in the International HapMap Project” Community Genet Vol. 10 (2007):186–198.

· Christine Grady, “Enduring and Emerging Challenges of Informed Consent” NEJM 372 (2015):855-62.

· McGuire A and Beskow L, “Informed Consent in Genomics and Genetic Research” Annu Rev Genomics Hum Genet 11 (2010):361–81.

· Lunshof JE, et al. “From Genetic Privacy to Open Consent” Nature Reviews Genetics Vol. 9 (2008): 406-11.

4. Incidental/Secondary Findings in Research Settings

· Susan Wolf, “The Continuing Evolution of Ethical Standards for Genomic Sequencing in Clinical Care: Restoring Patient Choice” J Law Med Ethics Vol. 45, no. 3 (September 2017): 333–340.

· Wolf SM, et al. “Managing Incidental Findings in Human Subjects Research: Analysis and Recommendations” J Law Med Ethics Vol. 36, no. 2 (2008): 219-48.

· Richardson HS and Cho MK, “Secondary Researchers' Duties to Return Incidental Findings and Individual Research Results: a Partial-Entrustment Account,” Genet Med Vol. 14, no. 4 (2012): 467-72.

· Ande v. Rock 2002, Court of Appeals of Wisconsin

5. First Use of Research Protocols in Humans

· Rebecca Dresser, “First-in-Human Trial Participants: Not a Vulnerable Population, but Vulnerable Nonetheless” J Law Med Ethics 37, 1 (2009): 38–50.

· Benjamin Freedman, “Equipoise and the Ethics of Clinical Research” NEJM 317 (1987): 141-145.

· Miller FG and Brody H, “A Critique of Clinical Equipoise: Therapeutic Misconception in the Ethics of Clinical Trials” The Hastings Center Report , Vol. 33, no. 3 (2003):19-28.

· Bartlett, R, et al, “Extracorporeal Circulation in Neonatal Respiratory Failure: A Prospective Randomized Study” Pediatric s 76 (1985): 479-87.

· Rosenberger F and Lachin J, “The Use of Response-Adaptive Designs in Clinical Trials” Control Clin Trials 14, no. 6 (1993):471-84.

6. The Ethics of Learning Healthcare Systems

· Faden RR, Kass NE, Goodman SN, Pronovost P, Tunis S, Beauchamp TL, “An Ethics Framework for a Learning Health Care System: A Departure from Traditional Research Ethics and Clinical Ethics.” Hastings Center Report (2013):S16-27.

· SUPPORT Study Group, “Target Ranges of Oxygen Saturation in Extremely Preterm Infants” New England Journal of Medicine Vol. 362 (2010):1959-69.

· David Magnus, “The Support Trial and the Debate Over Research Within the Standard of Care” AJOB 13, no. 12 (2013):1-2.

· Wilfond & Magnus et al. “The OHRP and SUPPORT” NEJM (2013):e36 (1-3).

· Macklin et al. “The OHRP and SUPPORT — Another View” NEJM (2013): e3(1-3).

7. Human Gene Therapy or Gene Transfer

· Reading on Jesse Gelsinger

· Robin Fretwell Wilson, “The Death of Jesse Gelsinger: New Evidence of the Influence of Money and Prestige in Human Research” Vol. 36 American Journal of Law and Medicine (2010): 295-325.

· Gelsinger v. Trustees of the University of Pennsylvania

· Gelsinger Complaint

· Germ Line Editing

· Lanphier E, Urnov F, Haecker SE, Werner M, and Smolenski J, “Don’t Edit the Human Germ Line” Nature Vol. 519, (2015):409-411.

· Savulescu J, Pugh J, Douglas T, and Gyngell C, “The Moral Imperative to Continue Gene Editing Research on Human Embryos” Protein Cell Vol. 6, no. 7, (2015):476–479

· CRISPR Babies

· Jing-Bao Nie, “He Jiankui’s Genetic Misadventure: Why Him? Why China?” Hastings Center Bioethics Forum (December 2018) (Accessed July 2019)

· Antonio Regalado, “Chinese Scientists Are Creating CRISPR Babies” MIT Technology Review, November 25, 2018. (Accessed June 2019)

8. Data Ethics

· Herman T. Tavoni, “Philosophical Theories of Privacy” Metaphilosophy Vol. 38, No. 1 (January 2007): 1-22.

· McGuire A and Majumder MA, “Two Cheers for GINA?” Genome Medicine 1:6, (2009 ).

· Mittelstadt BD and Floridi L, “The Ethics of Big Data: Current and Foreseeable Issues in Biomedical Contexts” Sci Eng Ethics 22 (2016):303–341.

· Vayenne E and Blasimme A,“Biomedical Big Data: New Models of Control Over Access, Use and Governance” Bioethical Inquiry 14 (2017):501–513.

Policies and regulations

· NIH Genomic Data Sharing Policy

1. Shared Decision-Making

· Applebaum PS and Grisso T, “Assessing Patients’ Capacities to Consent to Treatment” NEJM 19 (1988):1635-8.

· Childress JF and Siegler M, “Metaphors and Models of Doctor-Patient Relationships: Their Implications for Autonomy. Theor Med 5 (1984):17-30.

· Thaddeus Pope, “Making Medical Decisions for Patients without Surrogates” NEJM 369(2013):1976-8.

· Courtwright A and Rubin E, “Who Should Decide for the Unrepresented?” Bioethics 30 (2016):173-80.

· Gutheil TG and Applebaum PS, “Substituted Judgement: Best Interest in Disguise,” Hastings Cent Rep 13(1983):8-11.

2. Truth Telling in Medicine

· Wu, et al., “To Tell the Truth to Patients: Ethical and Practical Issues in Disclosing Medical Mistakes to Patients” J Gen Intern Med 12 (1997):770-5.

· U.S. Supreme Court, Canterbury v. Spence

3. Confidentiality & Duty to Warn

· Mark Siegler, “Confidentiality in Medicine—A Decrepit Concept” NEJM 307 (1982):1518-1521.

· California Supreme Court, Tarasoff v. Regents of the University of California

4. Transplantation

· Albert A. Jonson, “The God Squad and the Origins of Transplantation Ethics and Policy” The Journal of Law, Medicine & Ethics 35, no. 2 (2007): 238-40.

5. Rationing

· Scheunemann LP and White DB, “The Ethics and Reality of Rationing in Medicine.” Chest 140(2011):1625-1632.

6. End of Life

· David Magnus, “A Defense of the Dead Donor Rule,” Hastings Center Report 48, S4 (2018): S36-S38.

· Robert Truog, “Lessons from the case of Jahi McMath” Hastings Center Report 48, S4 (2018): S70-S73.

7. Medical Futility

· Bossle GT, Lo B, White DB, “An Official ATS/AACN/ACCP/ESICM/SCCM Policy Statement: Responding to Requests for Potentially Inappropriate Treatments in Intensive Care Units” Perspect Biol Med 60, no. 3, (2018):314-318.

· AA Kon, et al., “Defining Futile and Potentially Inappropriate Interventions: A Policy Statement From the Society of Critical Care Medicine Ethics Committee” Crit Care Med 44, no. 9 (2016):1769-74.

· California Court of Appeals, Bouvia v. Superior Court

· U.S. Supreme Court, Cruzan v. Director, Missouri Dep’t of Health

8. Physician-Aid-in-Dying (PAD) & Voluntary Active Euthanasia (VAC)

· Dan Brock, “Voluntary Active Euthanasia” Hastings Center Report 22, no. 2 (1992): 10-22.

· Bernat JL, Gert B, and Mogielnicki RP, “Patient Refusal of Hydration and Nutrition: An Alternative to Physician-Assisted Suicide or Voluntary Active Euthanasia” Arch Intern Med 153, 24 (1993):2723-8.

· Vacco v. Quill

· Washington v. Glucksberg

Biomedical Engineering

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Top 10 Bioengineering Trends for the 2020s

Topics & Resources

Human organs-on-chips are used to develop personalized medicine. Photo: Wyss Institute

Date Published:

Jan 29, 2020

Mark Crawford

This story was updated on 10/14/2022.

Biomedical engineering is a rapidly evolving, cross-disciplinary field that involves medicine, biology, chemistry, engineering, nanotechnology, and computer science. Bioengineers are at the forefront of scientific discovery, creating innovative medical devices, vaccines, disease management products, robots, and algorithms that improve human health around the world.

Below are ten of the hottest bioengineering R&D trends happening this decade.

1. Tissue Engineering

The cells are printed in thin layers that accumulate into living tissue or body parts that can be implanted. Researchers at the Wake Forest Institute for Regenerative Medicine have used a special 3D printer to create tissues that thrive when implanted in rodents.

2. Transdermal Patches

For example, scientists at Nanyang Technological University in Singapore have created a transdermal patch filled with drugs that help fight obesity. Instead of being taken orally or through injection, these compounds are released through hundreds of biodegradable microneedles in the patch that barely penetrate the skin. As the needles dissolve, the drugs are slowly released into the body.

3. Wearable Devices

Find Out More in the Infographic: What Is Bioengineering?

Smart clothing controls body temperatures by using special polymers and humidity-responsive vents that open when needed. It has been proposed that individualized temperature control through clothing could reduce a building’s heating and cooling costs by up to 15 percent.

4. Robotic Surgeons and Rehabilitation

Robots are also extremely helpful to people who have suffered strokes or brain injuries when it comes to relearning motor tasks. For example, the Lokomat is a gait training system that uses a robotic exoskeleton and a treadmill to help patients regain basic walking functions. It also allows the therapist to control the walking speed and how much support the robotic legs give to the patient.

5. Nanorobots

Nanorobot designs include DNA-based structures containing cancer-fighting drugs that bind only with a specific protein found on cancer tumors. After attachment, the robot releases its drug into the tumor.

By delivering the pharmaceutical agents exactly where they are needed, the body is not overloaded with toxicity and the side effects are fewer or less intense, improving the patient experience.

6. Virtual Reality

Virtual reality, or VR, is an especially valuable tool in the medical field because of how it can present the data taken from 3D medical images in incredibly detailed views of a patient’s body, or area of medical concern—for example, the cardiovascular system.

Related Video: How Does a Robotic Cane Work?

The model can be examined from all angles and points of interest in order to determine the best way to perform a procedure. Surgeons can even practice a complex procedure multiple times before performing it.

VR is also a critical teaching tool—medical students, for example, can perform virtual dissections instead of using cadavers.

7. Microbubbles

Researchers continue to look for new ways to selectively deliver drugs to specific target areas, thereby avoiding damage to healthy cells and tissue. One unique approach is microbubbles, which are very tiny, micron-sized particles filled with gas.

“Microbubbles loaded with drugs can be injected into the body, and they will distribute everywhere, but I can then disrupt the microbubbles by an ultrasound beam and the drug will be delivered specifically where the drug is needed,” said Beata Chertok , Assistant Professor of Pharmaceutical Sciences and Biomedical Engineering at the University of Michigan. Microbubbles can also be treated with a substance that will make them adhere to tumors without the need for ultrasound.

8. Prime Editing

This new gene-editing technique builds on the successes of base editing and CRISPR-Cas9 technology. Prime editing rewrites DNA by only cutting a single strand to add, remove, or replace base pairs. This method allows researchers to edit more types of genetic mutations than existing genome-editing approaches, including CRISPR-Cas9.

Further Reading: CRISPR Tech to Detect Ebola

To date, the method has only been tested with human and mouse cells.

“Potential impacts include being able to directly correct a much larger fraction of the mutations that cause genetic diseases and being able to introduce DNA changes into crops that result in healthier or more sustainable foods,” said David Liu , director of the Merkin Institute for Transformative Technologies in Healthcare at the Broad Institute of Harvard and MIT.

9. Organ-on-a-Chip

Chip technologies allow the construction of microscale models that simulate human physiology outside of the body. Organs-on-chips are used to study the behavior of tissues and organs in tiny—but fully functional—sample sizes to better understand tissue behavior, disease progression, and pharmaceutical interactions.

For example, inflammation processes can be studied to determine how inflammation is triggered and its value as an early-warning indicator for underlying medical conditions, including autoimmune responses. Other physiological processes studied on chips include thrombosis, mechanical loading on joints, and aging.

10. Mini Bioreactors

Bioreactors are systems that support biologically active organisms and their by-products. Smaller bioreactors are easier to manage and require lesser sample volumes. Advances in microfluidic fabrication capabilities now make it possible to design microscale bioreactors that can incorporate enzymes or other biocatalysts, as well as precision extraction systems, to produce highly pure products.

These systems provide economic high-throughput screening, using only small amounts of reagents, compared to conventional bench-scale reactors. As 3D printing becomes more refined, it should be possible to manufacture miniature bioreactors with more unusual flow paths or specially designed culture chambers.

Future Trends

Miniaturization, material innovations, personalized medicine, and additive manufacturing are key engineering trends that biomedical researchers are eager to incorporate into their designs. These technologies, in fact, open up a vast array of new design options that were not possible using conventional manufacturing methods.

These R&D advances are also happening at an ever-increasing rate—bioengineers must keep pace with disruptive technology and innovations to make the best products and maintain or boost their market share and brand reputation.

Mark Crawford is a technology writer based in Corrales, N.M.

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Biomedical research projects

General biomedical research.

Regulation of insulin secretion hotspots by the GLP-1 receptor
Optimisation of an ultra fast assay for metabolic profiling: application to clinical studies
Can Non-Invasive Vagus Nerve Stimulation alter the Cholinergic Metabolome in Parkinson’s Disease patients?
The feasibility and accuracy of a markerless motion capture for measuring parameters related to both normal and osteoarthritic gait and daily activities.
Wearable microneedle aptasensor of psychiatric biomarkers in mental health monitoring
Generating a Methyl-Proteomics Library for Studying Protein Methylation in Cancer
Immune-regulatory role of IL-27 axis in liver injury
Development and optimization of proteomic and metabolomic analysis of biological samples using Laser Desorption Rapid Evaporative Ionisation Mass Spectrometry
NNAT aggregation and loss of heterogeneity as causative factors in beta cell dysfunction in diabetes
Towards elucidation of 3D myocardial microstructure by ex-vivo Diffusion Tensor Cardiac Magnetic Resonance and 3D Histology
Developing a chick chorioallantoic membrane (CAM) assay as an xenograft model to study soft-tissue sarcoma drug development
Molecular mechanisms underpinning the extensive, multi-organelle dysfunction caused by the toxin L-amino acid oxidase
The role of mTORC2 in regulation of hESC stiffness and cell fate
Transient PiggyBac-based Genome Engineering to Produce Human Pluripotent Stem Cells
AstraZeneca Sponsored Project: Proteomic analysis of human mesenchymal stem cell cross-talk with haematopoietic stem cells in 3 dimensional niche of complex in vitro model of bone marrow

Anaesthetics, Pain Medicine and Intensive Care

Investigating the importance of microvesicle-delivered FADD on epithelial cell function during ventilator-induced lung injury
Evaluation of a novel medical device to prevent epidural hyperthermia
Evidence Synthesis to Inform Neuropathic Pain Mangement
Modelling labour contraction pain through Electrical muscle stimulation.
The role of the nuclear enzyme mitogen- and stress-activated kinase 1 in noxious heat sensitivity of primary sensory neutrons
Mechanisms of monocyte de-activation by neutrophil extracellular vesicles in sepsis
Modulation of neutrophil extracellular vesicle pro-inflammatory activity by complement
The effects of blocking MSK1 on tissue inflammation and wound healing
Neutrophil extracellular trap production in severe febrile illness in children
Preclinical investigation of brain injury due to carbon monoxide poisoning

Bacterial Pathogenesis and Infection

Analysis of OMV-based vaccine strategies to combat Avian Pathogenic Escherichia coli (APEC)
Exploring the mechanism of Salmonella effector kinase, SteC, in the mammalian host
Investigating the role of TRIM E3 ligase proteins during Salmonella infection
Poisons and antidotes - defining the antibacterial effector repertoire of Pseudomonas aeruginosa’s T6SS
Pathogenicity island transduction and the evolution of bacterial pathogens
Impact of targeting inhibitory immune receptors by urogenital bacterial pathogens.
Using a Fluorescence-activated cell sorting (FACS)-based screen to identify novel factors that regulate c-di-AMP production in Staphylococcus aureus.
Understanding golden staph and its friends: genomic analysis of staphylococcal nasal carriage in UK military personnel at high risk of skin infections
The role of KRT10 in invasive bacterial infections of childhood
Understanding the pathogenesis of the priority nosocomial pathogen Enterobacter cloacae

Data Science

Physics-Informed Neural Networks to Predict Blood Glucose Levels in Patients with Type-I Diabetes
Explainable prognostic models for progressive pulmonary fibrosis
Border Rendering Feature Orthogonal Network for Blood Vessel Segmentation
Revealing the hidden fingerprints of drug exposure and metabolism in population-scale metabolomics data by statistical correlation and database development.
Integrative analysis of single-cell RNA-Seq data to explore the association of mosaic loss of chromosome Y with idiopathic pulmonary fibrosis
Exploring Expression Patterns and Shared Genetic Mechanisms in MS through Integrative Genetic Analysis
Unpaired Style Mapping using Generative Models Techniques for Medical Image Segmentation
Characteristics of Urinary Pathogens in People Living with Dementia
Integrating transcriptomic, epigenomic, and transcription factor binding data to unravel the function of TSPO in microglia.
Machine Learning Applications to Radiomics of Early Pregnancy Ultrasound To Predict Miscarriage

Epidemiology, Evolution and Control of Infectious Diseases

A systematic review and estimation of the effects of temperature on yellow fever vector development and survival
Estimating the impact of cholera interventions on disease burden in Somalia
Evolution and global spatio-temporal spread of Coxsackievirus A6
Modelling the spread of drug resistance to a key malaria prevention drug in children
Are complex models necessary to realistically measure epidemic spread?
Quantifying the contribution of surveillance datastreams in informing key epidemiological drivers of the Covid-19 pandemic in the UK
Applying machine learning to the automated interpretation of genomic epidemiology data
Towards HIV elimination: a mathematical model-based examination of transmission in Manicaland, Zimbabwe
The potential impact of HIV pre-exposure prophylaxis (PrEP) on HIV outcomes in Western Africa: a mathematical modelling analysis

Microbiome in Health and Disease

One-Health surveillance of emerging antifungal resistance across a UK cohort of farms, homes and green-waste recyclers
Optimisation of storage and transportation of high throughput DESI swab testing of vaginal dysbiosis.
Exploring the impact of Mediterranean and Western diet on the gut bacterial metabolism
Westernisation of the faecal metabolic profiles
Measuring bacterial sugar nutrients in faecal samples by LC-MS/MS to assess the risk of pathogenic gut colonisation upon administration of antibiotics
The role of cervicovaginal microbiome on cervical carcinogenesis
Testing and developing novel drying matrices for Intestinal Microbiota Transplant capsules.
Can stabilized stool samples be used for bacterial culture, basic proteomics and clinical diagnostics?

Molecular Basis of Human Disease

How does proteostasis restrict toxic protein aggregates from damaging the cell?
The role of Mannose-6-phosphate receptor (M6PR) in human pancreatic β-cells
Investigating the role of CD63 in human adipose stem cells
How the bacterial type II secretion system powers toxin release
The Tight adherence molecular machine builds pili and drives bacterial pathogenesis
Novel neuromodulators from the gut microbiome
Biosensor screening using a bacterial synthetic memory circuit
Spatial biosensor development for the inflammatory biomarker sialic acid
Using wildDISCO to characterise disruption of sleep-wake cycles in Alzheimer's disease
Investigating the impact of genomic diversity on cell wall chemistry in Aspergillus fumigatus

Respiratory and Cardiovascular Science

Characterisation of lung pericytes and how inflammation can shape them
The role of mitochondrial dynamics in cardiac inflammatory phenotype
Identification of the miRNA markers of cardiac fibrosis from heart failure patients using new nanopore technology
Investigating the role of MAP4 and microtubule dynamics in heart failure.
How does PDE4B involve in the β2AR-cAMP compartmentation during hypoosmotic stress?
A systematic review and meta-analysis of trial evidence evaluating behavioural interventions to reduce asthma symptoms
Interactions of Immune Sub-populations with Cardiac Cell Types in Post-Infarct Human and Mouse Hearts
Role of sympathetic neurons in regulating cardiomyocyte conductance and electrical properties.
Aspergillus-specific immune responses in chronic respiratory disease
Characterization of MSC-derived exosomes from 3D culture systems

You can download a full list of the projects and supervisors for each stream below.

MRes BMR 2023-24 Projects (all streams)

Biomedical Engineering Project Topics

Biomedical engineering or medical engineering is a branch of engineering in which the study of biology and medicine for healthcare purposes. Biomedical engineering focuses on the future and advancement to improve the technology in medical and improve human health.

Biomedical engineering student need to prepare for their Final Year Project in their academic for both Diploma and Degree courses and need the latest and most unique project topics related to medical future advancement.

Read Also: Biomedical Engineering Seminar Topics

Project work is one of the most important part of our Final Year Biomedical Engineering curricular. Here is the list of Latest Biomedical Engineering Project Topics are as follows,

STAY TUNED!!!! MORE TOPICS WILL BE SOON.

More recent and latest seminar topics on Biomedical engineering will be update soon on the website.

I am Engineer and Web Developer. I made enggkatta.com to find the better solutions for our engineering community, help and provide the information about engineering and technology. Follow me on Twitter and Instagram .

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Top 10 Scholar 2024: Alyssa Rodriguez

Spelman class of 2024 Top 10 Scholar Alyssa Rodriguez

Alyssa Rodriguez, a class of 2024 Top 10 graduate from Columbus, Ohio, is distinguished by her passion for innovative biomedical research and her pursuit of excellence. Her academic journey is marked by a steadfast dedication to scholarly success and community engagement. A biochemistry major, Rodriguez has honed a versatile skill set, including critical thinking, problem-solving, and articulate communication. She has demonstrated her diverse talents as an engaged member of the RISE program and the Honors Program . She is also a trumpet player and a participant in Noire , the College's contemporary music ensemble. Beyond academia, Rodriguez' involvement with the TMCF Novartis mentorship program and the HBCU 20x20 Amgen Biotech Fellowship underscores her commitment to professional growth. Her research endeavors have led to presentations at esteemed scientific conferences, earning her accolades such as first place in chemistry at Spelman College's Research Day and a microbiology presentation award at ABRCMS in 2022. With an eye towards the future, Rodriguez is poised to further her impact in the field by pursuing a doctorate in medicinal chemistry at the University of Michigan.

In Her Own Words . . .

The most pivotal experiences of my academic journey were engaging in research, participating in the RISE program, and the friendships I made. Conducting research ranging from cellular biology to medicinal chemistry helped reinforce topics I learned in my major courses helped me improve my scientific communication skills through writing reports, a thesis, and presentations on the projects to which I contributed. Participating in the RISE program helped me to manage my time and balance my coursework with working in lab and preparing to attend a doctoral program after Spelman. Beginning my time at Spelman in the middle of a global pandemic was extremely difficult, especially during the transition from being completely online to in-person on campus. The friends I made during the transition and shortly after have become a huge support system for me. They encouraged me to be the best version of myself, lifted me up countless times, and their successes not only made me proud, but inspired me to strive for excellence in and outside of my academic pursuits at Spelman.

My research experiences, involvement in the RISE program, and friendships I formed equipped me with a vast combination of technical and soft skills and inspired me to conduct cutting-edge scientific research applicable to the biomedical field in the pharmaceutical industry.

As I further my education in graduate school, I would tell my past self to never count herself out of any opportunities and take advantage of anything and everything she can because the outcome could lead to more opportunities than she could imagine. I would also tell my past self to give herself grace and time to rest so she can always show up as her best self. Lastly, I would tell my past self to be present in every moment, enjoy it, and never take those moments for granted because they don't last forever, and life is meant to be enjoyable.

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For One Research Day Participant, PCOM is ‘Like a Miracle’ of Scholarly Opportunity

A PCOM student presents his research poster to participants during PCOM Research Day 2024

Positioned front and center in Philadelphia College of Osteopathic Medicine's (PCOM) Activities Center gymnasium, Cameron Stinson's research poster was hard to miss, as just about everyone who entered the gym for Research Day likely saw his first among many rows of posters displayed on easels.

Stinson, who is about to graduate from the Master of Science in Biomedical Sciences program from PCOM before starting the Doctor of Osteopathic Medicine program this fall, was displaying a study demonstrating how the drug Naltrindole can elicit robust cardioprotective effects in myocardial ischemia and reperfusion injury in animal models.

A 2020 graduate of Penn State University, Stinson was connected to PCOM through his mother, a nurse who knew a PCOM graduate who had worked in the lab of Lindon H. Young, PhD , a professor of microbiology and immunology and groundbreaking researcher in cardiovascular physiology and pharmacology . His innovative research focuses on the development of novel therapeutics to prevent ischemia-reperfusion injury of the heart and kidney. Stinson worked as a research assistant in Young's lab and was encouraged to pursue his master's degree on the road to medical school .

PCOM grad student Cameron Stinson (MS/Biomed '24, DO '28) talks to faculty in front of his research poster.

“Honestly, it was like a miracle, because ever since I wanted to become a doctor I've always been interested in the heart and cardiology, so it was very special that I got to work in a lab that deals specifically with cardiology,” said Stinson, who had presented his research for the first time less than a month before Research Day at the American Physiology Summit in Long Beach, California. “It's amazing to know that I'm part of research that could positively impact patients in the future in such a life-changing way.”

Stinson's research was one of 130 presentations at the 13th annual Research Day event held May 1 to celebrate the depth and breadth of scholarly activity conducted by PCOM students, faculty and staff. Examples of poster presentations included:

An examination of the relationship between expected outcomes and anxiety severity in patients using medical marijuana
Insights into a clinician-directed educational program about gun violence and prevention, and available resources in two community health centers in North and West Philadelphia
Ongoing development of therapeutic approaches to block fibrosis associated with chronic obstructive pulmonary disease (COPD), ischemia-reperfusion injury of the heart and kidney, loss of vision and progressive neurological disorders

“Research Day is the premier event that showcases scholarly activity across all three PCOM campuses,” said Mindy George-Weinstein, PhD , PCOM's Chief Research and Science Officer. “Our goals are to promote health through basic, translational, clinical, community-based and education research, and engage students in these efforts to nurture their curiosity, creativity and commitment to generating new knowledge throughout their careers.”

The day also featured a keynote address by Scott K. Dessain, MD, PhD, on “Human Antibody Therapeutics in the 21st Century.” Dessain is an oncologist, research scientist and professor at the Lankenau Institute for Medical Research, and an oncologist at the Lankenau Medical Center. He also is co-founder and Chief Technology Officer of Immunome, Inc., a biotechnology company specializing in the development of human monoclonal antibodies for use in the treatment of infectious diseases, cancer and neurological illness.

“In the world we live in today, facts are more important than ever, and research drives facts in science,” said PCOM President and CEO Jay S. Feldstein, DO '81 , during introductory remarks. “At the end of the day, we're a science-based institution. … We can never underestimate the value and purpose of research.”

The research posters on display were accompanied by investigators who explained their studies to members of the PCOM community, guests and judges.

Aerial photo of PCOM's Student Activities center gymnasium filled with rows of research posters and attendees.

Alexa Bonacquisti, PhD, PMH-C , an assistant professor of Clinical Psychology , had four students presenting their dissertation projects within the area of reproductive health psychology. Bonacquisti was also the lead organizer of Research Day at PCOM's Philadelphia campus.

“It's very rewarding to see everything come together and to hear about all the work everyone is doing,” she said. “There's quite a wide range of projects, from the proposal stage to completed data. It's also nice to see interdisciplinary collaboration and students being really proud and excited about the work they're doing.”

The event culminates in the distribution of multiple awards, including the David Miller, DO '60, Memorial Endowed Research Day Awards. Those winners are:

Best in Show Award: Jason Fink (DO '27), “Improving IOL Calculators' Total Corneal Astigmatism Predictions with Deep Learning”

Excellence in Research: Alexandra Barrera (DO '27), “Enhancing Intracellular Delivery of Protein Kinase C Beta II via N-Terminus Conjugation of Myristic Acid-Trans-Activator of Transcription to Attenuate Superoxide Release in Rat Polymorphonuclear Leukocytes”

Award in Psychology: Christina Shoshilos (PsyD '26), “The relationship between maternal stress, disordered eating, depressive symptoms, and infertility in women throughout the postpartum period”

Masters in Biomedical Science Award: Kaitlin O'Boyle (MS/Biomed '24, DO '28), “The role of PPARs during Coxiella burnetii infection”

Award in Alzheimer's: Melanie Ventura (PsyD '28), “Does interplay among dementia severity, activities of daily living, and depression in older adults vary by social frailty and dementia subtype?”

Additional winners are:

Camille DiLullo, PhD, Memorial Award for Excellence in DO Research: Xiangliang Sui (DO '27), “Intravitreal injection of Noggin slows retinal degeneration in a mouse model of retinitis pigmentosa”

CCDA Award for Research Excellence: Christopher Stegmuller (DO '27), “Inhibiting MMP-9 activation prevents increased seizure susceptibility after early-life seizures in larval zebrafish”

Division of Research Staff Award: Gabrielle Davis, “Inhibition of CD38 recovers NAD+ and corrects metabolic dysregulation in skeletal muscle of mice modeling SBMA”

Division of Research Award for Exceptional Clinical Research: Danielle Terrenzio (DO '25), “Evaluation of Transitional Zone Lesions on Multiparametric MRI and MRI-targeted Biopsy in Detecting Clinically Significant Prostate Cancer in the Community Setting: A Retrospective Study”

Department of Psychology Excellence in Research Award: Jordan Barczak (PsyD '28), “Examining the psychosocial impact of having an adolescent sibling with a cancer diagnosis”

Department of Psychology Best Oral Presentation Award: Devin DeTurk (PsyD '28), “Music to move you: comparing music genre's effect on athletic performance in a practice setting”

Department of Psychology Best Visual Presentation Award: Kaitlyn O'Neill (PsyD '25), “(In)Animate: Exploring the relationship between obsessive-compulsive disorder, perceived thought control, and anthropomorphism”

Learn more about the College's research focus areas and student researchers at PCOM.

About Philadelphia College of Osteopathic Medicine

For the past 125 years, Philadelphia College of Osteopathic Medicine (PCOM) has trained thousands of highly competent, caring physicians, health practitioners and behavioral scientists who practice a “whole person” approach to care—treating people, not just symptoms. PCOM, a private, not-for-profit accredited institution of higher education, operates three campuses ( PCOM , PCOM Georgia and PCOM South Georgia ) and offers doctoral degrees in clinical psychology, educational psychology, osteopathic medicine, pharmacy, physical therapy, and school psychology. The college also offers graduate degrees in applied behavior analysis, applied positive psychology, biomedical sciences, forensic medicine, medical laboratory science, mental health counseling, physician assistant studies, and school psychology. PCOM students learn the importance of health promotion, research, education and service to the community. Through its community-based Healthcare Centers, PCOM provides care to medically underserved populations. For more information, visit pcom.edu or call 215-871-6100.

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Awards Recognize Success of Assessment Through Engagement and Collaboration

Group of people standing together in the front of a room posing for a photo

The Retention and Student Success team receives the “Best Use of Results” award from Lois Agnew, associate provost for academic programs. From left: Hope Smalling, Radell Roberts, Lois Agnew, Kal Srinivas, Samantha Trumble, ShawnMarie Parry, Priyasha Sinha Roy ’24 and Prabin Raj Shrestha ’24

Academic Affairs and Institutional Effectiveness (IE) presented awards to several faculty and staff members, students, offices and programs during the One University Assessment Celebration on April 26, in the School of Education, Education Commons.

In her opening remarks, Lois Agnew, associate provost for Academic Programs, highlighted the importance of celebrating the various ways faculty, staff and students have engaged in assessment practices, illuminating our strengths but also reinforcing a commitment to continuous improvement. Awards were given in five categories:

Assessment Champion : Recognizing campus community members who advocate for meaningful assessment to enrich the student experience and who have made outstanding contributions to the University’s culture of improvement.
Outstanding Assessment : Recognizing a distinguished academic, co-curricular and functional area for overall robust assessment.
Best Engagement Strategies : Recognizing programs/units for engaging faculty, staff and students to participate and contribute to the assessment process.
Best Use of Results : Recognizing an academic, co-curricular and functional area for how assessment results are used in making decisions.
Collaborative Inquiry and Action : A new award recognizing a unit that collaborates with others outside of their primary school, college or division to use assessment methods and data, resulting in actions to improve student learning and campus operations.

This year’s recipients included:

Assessment Champion | Academic: Blythe Bennett, program manager, School of Information Studies
Assessment Champion | Co-Curricular/Functional: Jessica Newsom, assistant director, Living Learning Communities
Assessment Champion | Shared Competencies: Maureen Thompson, undergraduate director and associate professor, Department of Public Health, Falk College
Outstanding Assessment | Academic Programs: Forensic Science Undergraduate and Graduate Programs, Forensic and National Security Sciences Institute, College of Arts and Sciences (A&S)
Outstanding Assessment | Co-Curricular: Student Outreach and Support, Student Experience
Outstanding Assessment | Functional: Future Professoriate Program, Graduate School
Best Faculty Engagement Strategies: Human Development and Family Science program, Department of Human Development and Family Science, Falk College
Best Staff Engagement Strategies: College of Professional Studies Dean’s Office
Best Student Engagement Strategies: Living Learning Communities, Student Experience
Best Use of Results | Academic: Film program, Department of Film and Media Arts, College of Visual and Performing Arts (VPA)
Best Use of Results | Co-Curricular: Syracuse Office of Undergraduate Research and Creative Engagement (The SOURCE)
Best Use of Results | Functional: Retention and Student Success
Collaborative Inquiry and Action: Barnes Center at The Arch

After the awards, 2023 Assessment Leadership Institute participants were recognized for their poster presentations detailing assessment activities over the past year:

Keonte Coleman, director of assessment and program review and assistant professor, Newhouse School of Public Communications
Nadeem Ghani, assistant teaching professor, Electrical Engineering and Computer Science, College of Engineering and Computer Science (ECS)
Dimitar Gueorguiev, Chinese studies program director and associate professor, Political Science, Maxwell School of Citizenship and Public Affairs
Jody Nyboer, associate professor, School of Design, VPA
Kathleen Roland-Silverstein, associate professor, presenting with Isabel Hampton ’24 and Katie Weber ’24, Sentor School of Music, VPA
Darwin Tsen, Chinese language minor coordinator and assistant teaching professor, Languages, Literatures and Linguistics, A&S
Andrea Willis, director of academic programs, College of Professional Studies

Recipients of the inaugural “Student Engagement in Assessment” grant were also acknowledged for their poster presentations showcasing the collaborative experiences of students, faculty and staff:

Biomedical and Chemical Engineering: Tessa DeCicco ’25, Kerrin O’Grady ’25, Jade Carter ’24, Carly Ward ’24, Natalie Petryk ’21, Bridget Sides ’25, Mia Paynton ’25 and Doug Yung, associate teaching professor, Biomedical Engineering undergraduate program director, ECS
Center for Learning and Student Success (CLASS): Student Success Advisory Council, which includes Eadin Block ’26; Margot MacKechnie ’26; Gary Shteyman ’26; Karen Toole, coordinator of academic support, Center for Disability Resources; Tasha Terzini, advisor, A&S; Kate Bussell, assistant director of academic expectations CLASS; and George Athanas, associate director, CLASS
New Student Programs: Winnie Naggar ’24 and Butch Hallmark, interim director, New Student Programs
Retention and Student Success: Prabin Raj Shrestha ’24 and Hope Smalling, functional business analyst, Retention and Student Success

Jerry Edmonds, senior assistant provost, shared final remarks. He noted that Syracuse University achieved “two important milestones this year. It is the fifth annual celebration highlighting the dedicated efforts of faculty, staff and students to assess and improve, as well as 10 years since the University embarked on a campus-wide initiative of systematically collecting evidence to inform decision-making across our campus.” He concluded with thanks and appreciation for everyone’s continued efforts.

Visit the IE website for event photos, presentation materials highlighting recipients’ achievements and posters.

Story by Laura Harrington, associate director, Institutional Effectiveness

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