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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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80 Biomedical Science Research Topics

FacebookXEmailWhatsAppRedditPinterestLinkedInIf you are a student seeking compelling research topics in Biomedical Science, Let us help you. Biomedical Science is a Scientific exploration that intersects with medical innovation to unlock the human body’s mysteries and improve healthcare outcomes. From dissecting cellular pathways to pioneering medical technologies, Biomedical Science offers vast research opportunities that promise to transform […]

If you are a student seeking compelling research topics in Biomedical Science, Let us help you. Biomedical Science is a Scientific exploration that intersects with medical innovation to unlock the human body’s mysteries and improve healthcare outcomes. From dissecting cellular pathways to pioneering medical technologies, Biomedical Science offers vast research opportunities that promise to transform lives.

This blog post serves as a beacon for students seeking research topics in this dynamic field. Whether you’re passionate about disease mechanisms, cutting-edge diagnostics, regenerative medicine, or medical ethics, the curated list of research topics below will guide you toward impactful and meaningful contributions to Biomedical Science. As you embark on your academic journey, let these topics ignite your curiosity and lead you toward discoveries that shape the future of healthcare.

A List Of Potential Research Topics In Biomedical Science:

The role of microRNAs in regulating gene expression and disease development.
Advancements in 3D printing for personalized medical implants and prosthetics.
Investigating the gut-brain axis and its implications for mental health disorders.
Targeting epigenetic modifications for cancer therapy and prevention.
Precision medicine approaches for autoimmune diseases.
Biomechanics of bone tissue and implications for osteoporosis treatments.
Novel strategies for enhancing drug delivery across the blood-brain barrier.
The role of extracellular vesicles in intercellular communication and disease progression.
Gene-environment interactions in disease susceptibility and prevention.
Innovative strategies for gene therapy delivery and integration.
Immune checkpoint blockade in cancer therapy: Current challenges and future directions.
Exploring the gut-liver axis and its relevance in metabolic diseases.
The potential of exosome-based therapies for regenerative medicine.
Computational models for predicting drug interactions and adverse effects.
Stem cell-derived organoids as disease models and drug screening platforms.
Insights into the microbiome’s impact on mental health and neurological disorders.
Biomechanical engineering for developing functional tissue replacements.
Addressing antibiotic resistance through novel antimicrobial strategies.
The gut microbiome is a modulator of immune responses and inflammation.
Analyzing the role of non-coding RNAs in disease progression.
Artificial intelligence in predicting disease outbreaks and pandemic control.
Mechanisms of drug resistance in cancer and strategies to overcome it.
Biomedical implications of CRISPR-based gene drives for disease control.
Integrating omics data for comprehensive disease understanding.
Epitranscriptomics: Exploring RNA modifications and their functional implications.
Personalized cancer immunotherapy based on tumour mutational profiles.
Emerging biotechnologies for enhancing tissue and organ transplantation.
Targeting senescence pathways for anti-aging interventions.
Role of mitochondrial dysfunction in neurodegenerative diseases.
Engineering functional biomaterials for wound healing and tissue repair.
Precision medicine in cardiovascular diseases: Genomics, proteomics, and beyond.
Immunomodulatory strategies for treating autoimmune and inflammatory disorders.
Metabolic reprogramming in cancer and therapeutic interventions.
Regenerative potential of mesenchymal stem cells in tissue repair.
Engineering synthetic biology circuits for therapeutic applications.
Neurodegenerative diseases and the potential of gene therapy approaches.
Harnessing the microbiome for developing novel probiotics and therapeutics.
Targeting tumour microenvironment for enhancing cancer therapy efficacy.
Exploring the role of circular RNAs in disease pathogenesis.
Integrating artificial intelligence with medical imaging for enhanced diagnostics.
Predictive modelling in personalized medicine for disease treatment optimization.
Emerging therapies for neurodegenerative disorders like Alzheimer’s and Parkinson’s diseases.
Nanoparticles as drug delivery agents: Enhancing precision and efficacy.
Harnessing stem cells and biomaterials for tissue engineering and regenerative medicine.
Immunotherapies for cancer treatment: Current status and future directions.
Genomics-driven approaches to precision oncology and targeted therapies.
Gut microbiome composition and its impact on health and disease.
Artificial intelligence applications in medical imaging for accurate diagnosis.
Ethical considerations of CRISPR-Cas9 gene editing for human enhancement.
Integrating bioinformatics in analyzing complex biological data.
Cardiovascular applications of stem cell therapy for tissue regeneration.
Biomarker discovery in personalized medicine: Challenges and innovations.
Repurposing existing drugs for treating rare and neglected diseases.
Advancements in vaccine development and distribution strategies.
Wearable health technology: Transforming patient monitoring and well-being.
Neuroimaging techniques for studying brain connectivity and disorders.
Epigenetic modifications and their role in disease progression.
Lifestyle interventions for managing metabolic syndrome and related disorders.
Addressing antimicrobial resistance through novel therapeutic approaches.
Innovations in biomaterials for medical implant design and function.
Environmental exposures and their impact on disease susceptibility.
Molecular insights into ageing and strategies for promoting healthy ageing.
Telemedicine’s potential in remote patient monitoring and healthcare delivery.
Drug development lifecycle: From discovery to clinical trials.
Ethical considerations in human and animal biomedical research.
Neuroplasticity’s role in post-injury brain rehabilitation.
Metabolomics in disease profiling and diagnostics.
Harnessing the immune system in cancer therapy with checkpoint inhibitors.
Molecular diagnostics for rapid and accurate infectious disease diagnosis.
Personalized nutrition interventions for improved health outcomes.
Biopharmaceutical production advancements and challenges.
Genetic basis and potential treatments for rare genetic diseases.
Ethical implications of human-animal hybrid research in biomedicine.
Non-invasive cardiovascular imaging techniques for early disease detection.
Molecular mechanisms underlying inflammation and potential targets for intervention.
Gene therapy strategies for treating genetic disorders.
Microbiome dysbiosis and its association with disease states.
Biomimetic design principles for innovative medical devices.
Pharmacogenomics and its impact on individualized medicine.
Data privacy and security in handling genetic and health information.

In Biomedical Science, these research topics offer boundless possibilities for advancing human health. These avenues pave the way for impactful contributions to medical knowledge and care innovation from undergraduates to doctoral candidates. Your journey in Biomedical Science can shape the future of health and well-being.

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Do histone modifications control gene expression?

Does endotoxin cause or contribute to neurodegenerative diseases?

Molecular interactions of drugs with the allosteric sites of vertebrate Cys-loop receptors

Why do bacteria carry toxin-antitoxin systems?

Aneuploidy in cancer: lessons so far

Big data in genomics and healthcare and how it has defined cancer diagnosis and treatment

Modelling in Biology: accurate descriptions of our pathetic thinking or pathetic descriptions of the real world?

Trace the economic and biological causes of the current antibiotic resistance crisis. Is there a solution and, if so, does it lie in the hands of patients, clinicians, regulators or researchers?

Transposable elements – a powerful force driving evolution

Can the gut microbiota influence host appetite? Implications for the aetiology of obesity

Can vaccine innovation solve the last mile problem for vaccines in low-resource settings

Eradication of Polio: Past Challenges and Future Prospects

Is the age of antibiotics over?

Microbiome regulation of the gut-brain axis: implications for anxiety and depression

On the origin of the bacterial flagellum: an example of irreducible complexity?

Recent advances in the blockade of immune checkpoints in cancer immunotherapy

What are the major causes of delay in response to emerging disease outbreaks: the case of the 2014-2016 Ebola outbreak in West Africa

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Cystic-fibrosis related diabetes

How do SNAREs mediate membrane fusion?

Is CRISPR ready for the clinic?

Phantom pain: a ghost in the machine or a biological basis?

Plant-derived polysaccharides - sweet medicine of tomorrow?

Why are opioids problematic analgesics?

Plant Sciences

"Scrambled Genomes": examining the methodology and goals of the Sc2.0 synthetic genome project

Engineering C4 Rice: Molecular Targets and Progress so far

Is Trehalose-6-phosphate a central regulator of plant carbon partitioning?

Sucrose signalling and its role in plant development

Who needs cells anyway?

Is visual adaptation diminished in autism spectrum disorders?

Memory reconsolidation blockade: a novel treatment for Post-Traumatic Stress Disorder

Parental influence on child language development: does gender matter?

Sleep disorders as model for Consciousness Research: a cognitive framework for parasomnias

The role of genetics in the transgenerational transmission of memories

The role of insulin in cognitive decline in the elderly

Physiology, Development and Neuroscience

Adaptations of cancer cells for metastasis to the brain

How and why is the infant gut microbiota affected by caesarean section? The crying need for well-designed research

How do astrocytes support and modulate neuronal function? Exploring neurovascular coupling, neurometabolic coupling, and gliotransmission

The missing nuances of science and society: How popular science is shaping policy and understanding

The role of operant conditioning in spinal cord plasticity and its potential therapeutic implications for spinal cord injury

The significance of proinflammatory mediators in disrupting HRV: a link to cardiovascular morbidity in schizophrenia?

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Prenatal stress: relevance to major depressive disorder

Promises and limitations of a combinatorial approach to spinal cord injury

Social neurons? A critical examination of how individual neurons might implement primate social cognition

The bidirectional relationship between the hippocampus and metabolic syndrome

The Cognitive and Neurobiological Benefits of an Imperfect Memory

Why are drug seeking habits maladaptive?

How have homosexual mating preferences evolved in males and females?

How relevant is the Drosophila segmentation paradigm to the study of segmentation in other arthropods and other animals?

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Migration of Homo erectus out of Africa

The meaning of alarm calls: honesty and deception

Wolves verses Eurasian Lynx as candidates for large predator reintroduction in mainland Britain - which may be the most suitable and why?

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Conservation science.

Causes and remedies for the decline in red squirrel numbers in Britain

How do deer impact forest organisms in UK lowland woodland?

Reintroduction and translocation as conservation tools for rhinos

Translocation as a tool for tiger ( Panthera tigris ) conservation: problems and potential solutions

With respect to myxomatosis and RHD virus how have rabbit populations co-evolved with the viruses and how may rabbit populations be affected in the future?

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To what extent have biasing in screening and diagnosis contributed to the sex ratios observed in autism?

Health, Medicine and Society

Medicalisation and violence against women: implications for the medical encounter

Human Ecology and Behaviour

The use of wood in prehistory

Neural Degeneration and Regeneration

Progress towards establishing lead times of biomarkers for early diagnosis of idiopathic Parkinson's disease

The Pharmacological Targeting of the Amyloid-beta pathway in Alzheimer's: issues and prospects

Philosophy and Ethics of Medicine

Dementia: how changing perspectives affect clinical decision making

Should the MMR vaccine be mandatory? The problem of herd immunity threshold

Psychology and Social Issues

Reducing Extremist Violence by increasing Integrative Complexity - why understanding the role of emotion is central to success

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Home > USC Columbia > Engineering and Computing, College of > Biomedical Engineering > Biomedical Engineering Theses and Dissertations

Biomedical Engineering Theses and Dissertations

Theses/dissertations from 2023 2023.

Laboratory Management Models in Core Facilities , Karmen Michael Owen

Detecting Physiological Concentrations of Alzheimer’s Associated Amyloid-β Protein Utilizing a Cell-Based Response , Brittany Elizabeth Watson

Volume Change Measurements of Cancer Cells in a Microfluidics Platform , Yukuan Yu

Theses/Dissertations from 2022 2022

Investigating the Impact of Endothelial Dysfunction and Aging On Vascular Remodeling Using Mouse Models , Liya Du

Histomechanical Compatibility of Coronary Artery Bypass Grafts , Colton J. Kostelnik

The Effect of Pulsed Field DC Electrophoresis and Field Amplified Sample Stacking on the Microchip Electrophoretic Separation of Organic Dyes , Travis Geoffrey Stewart

Long Non-coding RNA PVT1 – An Exploratory Study in Ovarian and Endometrial Cancer , Kevin Tabury

Interrogating the Role of ING4 in Hematopoietic Stem Cells and Cancer , Zanshé Thompson

Theses/Dissertations from 2021 2021

An in Vitro Approach To Vascular Therapeutic Testing , Shahd Ali Hasanain

Age and Sex Dependency of Thoracic Aortic Aneurysm Progression in a Mouse Model of Marfan Syndrome , Nazli Gharraee

Impaired Metabolic Flexibility in a Mouse Model Of Leigh Syndrome , Richard Sterling McCain Jr

Vascular Endothelial Dysfunction and Effects on Arterial Wall Microstructure , Jeffrey Thomas Rodgers

The Immune Modulatory Role of Endocannabinoid Anandamide to Suppress Inflammation Through Regulation of Microrna and Microbiome , Muthanna Ali Sultan

Theses/Dissertations from 2020 2020

Advanced Geometric Analyses in Vascular Disease and Interventions , Dara Ahmadi Azar

Nitric Oxide Expression With Age and Diet in the Arterial Wall of Apoe Knockout Mice , Kara Cooper

cis -Resveratrol Upregulates Tyrosyl-tRNA Synthetase and Inhibits the Proliferation of Select Breast Cancer Cell Lines , Marion Cone Hope III

Using Human Granulosa Cells to Select the Most Competent Embryos for Uterine Transfer in in Vitro Fertilization Cycles , Richard John Kordus

Effect of Cannabinoid Treatment on Immune Cell Functions During Acute Lung Injury , Amira Kamil Mohammed

Theses/Dissertations from 2019 2019

Beneficial Effects of Resveratrol Against Colitis and Colorectal Cancer Mediated by the Host Microbiome, Epigenome, and Immune Response , Haider Rasheed Daham Alrafas

Three-Dimensional Plasma Cell Survival Microniche in Multiple Myeloma , Katrina A. Harmon

Adipose Tissue Engineering: A Therapeutic Strategy for the Treatment of Obesity and Glucose Intolerance , Michael A. Hendley

Role of P-Glycoprotein in Alzheimer’s Disease for Enhanced Brain Elimination of Amyloid-β , Hope Holt

Three-Dimensional Collagen Tubes for In Vitro Modeling , Rebecca Jones

Experimental Methods and Techniques for Improved Biomechanical Characterization of Diverse Murine Aortopathies , Brooks Alexander Lane

Experimental Study of Free-Solution Separation Under Pulsed Electrophoresis in Microchip , Xin Liu

Biophysical Analyses of Left Ventricular Remodeling Secondary to Myocardial Infarction and Left Ventricular Pressure Overload , William Manuel Torres

RAGE Expression and Inflammation in Alzheimer’s Disease: in Vitro Model Development and Investigation of a Potential Peptoid Inhibitor , Lauren Michell Wolf

Theses/Dissertations from 2018 2018

Identification of the Mechanisms Through Which Botanicals Attenuate Pathogenesis of Human Diseases , Esraah Alharris

A Comprehensive Reengineering Of The Hospital Emergency Triage System , Nicholas D. Boltin

Matrix Stiffness Modulates Mesenchymal Stem Cell Sensitivity to Geometric Asymmetry Signals , Maria Eugenia Piroli

Association Between Mechanics And Biology In Vascular Graft Remodeling , David Andrew Prim

Modulation Of Amyloid-β Aggregation Via Small Molecules And Glycine Zipper Alterations , Steven Zebulon Vance

Theses/Dissertations from 2017 2017

Atherosclerotic Plaque Adhesion Strength and its role in Plaque Rupture , Bilal Merei

Far-Field Optical Microscopy Based on Stimulated Emission Depletion , Yunxia Wang

Theses/Dissertations from 2016 2016

A Theoretical Study of Polymer based Drug Delivery Systems , Ebtisam Abdullatif Aldaais

Automated Image Analysis And Spatial Computational Modeling Of NF-kB In Cerebrovascular Endothelial Cells , Kasey Catalfomo

Therapeutic Potential Of Catechins And Derivatives For The Prevention Of Alzheimer’s Disease , Shelby Elaine Chastain

A Mechanical Approach to the Characterization of Material Failure of Atherosclerotic Lesions , Lindsey A. Davis

Enabling Studies to Optimize Biomaterials for the Treatment of Myocardial Infarction , Eva Adriana Romito

Theses/Dissertations from 2015 2015

Effects of Cell Adhesion Peptides, pH, and Matrix Shape on Maintenance of Breast Cancer Stem Cells in an Engineered Hydrogel Matrix , Leily Daneshian

Design and Development of a Ventilation Chamber for Testing Efficacy of Tracheal Stents , Caroline N. Horton

Material Considerations for Development of 3D Printed Bronchial and Tracheal Stents , Nidah M. Hussain

Theses/Dissertations from 2014 2014

Isolation of Natural Nrf2 Activators from American Ginseng , Akrm Abdalrahman

Genes Mediating Cardiac Remodeling During Pregnancy and the Early Post-Partum-Period in Mice , Esam Aljrbi

A Three-Dimensional in Vitromodel of Atherogenesis , Pin Hsuan Chang

Identifying Performance Criteria of Fully Bioresorbable Scaffolds for Endovascular Applications , Jahid Ferdous

Novel Conditioning Protocols Focusing on Oxygen Manipulation to Enhance Stem Cell Transplantation , Brandon William Hanna

Developing a Bioreactor for Biaxial Mechanical Testing and Conditioning of Vascular Tissue , Steve Marcous

Experimental and Theoretical Studies of Native and Engineered Vascular Tissue Mechanics , Boran Zhou

Theses/Dissertations from 2013 2013

Toward Directing Cell Fate: Carbon Nanotubes As Modulators of Extracellular and Transporters of Intracellular Cues , Qingsu Cheng

Biomechanics of Porcine Renal Artery and the Development of A Replacment Vessel , Mohamed Gabr

Osteon-Mimetic Nanocomposite Materials For Bone Regeneration , Ozan Karaman

Microencapsulation of a Connexin-43 Mimetic Peptide as a Novel Wound Healing Agent in an Ocular Injury Model , Keith Brian Moore

Gold Nanoparticles and Peptoids as Novel Inhibitors of Amyloid Beta Aggregation in Alzheimer's Disease , Kelly Ann Moore

Effect of Physiological Oxygen Levels On Osteogenic Differentiation of Adipose-Derived Stem Cells , Suchit Sahai

Investigation of START Domain Proteins in Human Luteinized Cells and COS-1 Cells , Bo Shi

Characterizing Hypoxia and Its Behavioral Effects In 3-Dimensional Cell Aggregates , Matthew Lorincz Skiles

The Effect of αCT-1 Peptide on Bone Marrow Stromal Cells Following Injury , Adam Clay Vandergriff

Theses/Dissertations from 2012 2012

Flow-Induced Forces Regulate the Development of Cardiac Valves , Stefanie Vawn Biechler

Stimulated Emission Depletion (STED) Microscopy and Pacific Orange Dye Optimization For H9C2 Cox-1 Imaging Via Indirect Immunocytochemistry , John Wesley Merriman

Vasculogenic Scaffolds: How Cell-Cell and Cell-Matrix Interactions Regulate Vascular Differentiation and Morphogenesis , Samantha Jo Stinson

A Novel Quantitative Mechanical Test of Atherosclerotic Plaque Stability , Ying Wang

Theses/Dissertations from 2011 2011

Synthesis and Characterization of Thermally Responsive Nanocapsules Surface Decorated With Folic Acid For Targeted Drug Delivery and Cancer Destruction , Kyle Bradley Gilstrap

Study of Polyphenols and Naphthalimide Analogs As Inhibitors of Amyloid- β Protein Aggregation In Alzheimer'S Disease , Chen Suo

Development and Characterization of Micro/Nano Scale Biomaterials For Biomedical Applications , WUJIE ZHANG

Theses/Dissertations from 2010 2010

Study of Structural and Physical Properties of Small Molecule and Nanoparticle Inhibitors of Amyloid-B Protein Fibril Formation In Alzheimer'S Disease , Deborah Soto-Ortega

Theses/Dissertations from 2009 2009

A Novel Technique for Fabricating Aligned Nanofibers by Using Solution Electrospinning , Ozan Karaman

Synthesis and Characterization of Injectable Star-shaped Poly(Lactide-co-Glycolide-co-Acrylate) Macromers , Jianping Wu

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Theses and dissertations are documents that present an author's research findings, which are submitted to the University in support of their academic degree. They are very useful to consult when carrying out your own research because they:

provide a springboard to scope existing literature
provide inspiration for the finished product
show you the evolution of an author's ideas over time
provide relevant and up-to-date research (for recent theses and dissertations)

On this page you will find guidance on how to search for and access theses and dissertations in the Bodleian Libraries and beyond.

Definitions

Terms you may encounter in your research.

Thesis: In the UK, a thesis is normally a document that presents an author's research findings as part of a doctoral or research programme.

Dissertation: In the UK, a dissertation is normally a document that presents an author's research findings as part of an undergraduate or master's programme.

DPhil: An abbreviation for Doctor of Philosophy, which is an advanced research qualification. You may also see it referred to as PhD.

ORA: The Oxford University Research Archive , an institutional repository for the University of Oxford's research output including digital theses.

Theses and dissertations

Reading theses and dissertations in the Bodleian Libraries

The Bodleian Libraries collection holds DPhil, MLitt and MPhil theses deposited at the University of Oxford, which you can consult. You may also be interested to read theses and dissertations beyond the University of Oxford, some of which can be read online, or you can request an inter-library loan.

Help with theses and dissertations

To find out more about how to find and access theses and dissertations in the Bodleian Libraries and beyond, we recommend the following:

Bodleian Libraries theses and dissertations Links to information on accessing the Bodleian Libraries collections of Oxford, UK, US and other international theses.
Oxford University Research Archive guide
Help & guidance for digital theses Information on copyright, how to deposit your thesis in ORA and other important matters
Guide to copyright The Bodleian Libraries' Quick guide to copyright and digital sources.

Plagiarism checking tools

Read the University academic good practice page.

Seek your Supervisor or Tutor's guidance. In addition, your Supervisor or Tutor may decide to submit your work to Turnitin, accessible to teaching staff only. Visit the Turnitin website for product information.

Consult books - suggested reading:

Neville, C. (2016). The complete guide to referencing and avoiding plagiarism (3rd ed.). Maidenhead: Open University Press. Title available in e-book and print format - shelfmark PN171.F56 NEV 2016 in the Radcliffe Science Library
Pears, R. & Shields, G.J. (2019). Cite them right: the essential referencing guide (11th ed.) Basingstoke: Palgrave Macmillan. Title available in e-book format

Depositing your thesis

It is mandatory for students completing a research degree at the University of Oxford (registered to a programme of study on or after 1st October 2007) to deposit an electronic copy of their theses with the Oxford University Research Archive (ORA) in order to meet the requirements of their award. To find out more, visit the Oxford University Research Archive guide.

Quick access to research & writing guides

Research integrity and ethics The University of Oxford regards research integrity as a core value and has a longstanding commitment to ensuring that it is embedded in its research culture and activity
Academic good practice Advice on academic good practice including avoiding plagiarism, managing your time, reading, note taking, referencing and revision.
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Indian J Anaesth
v.66(1); 2022 Jan

Dissertation writing in post graduate medical education

Department of Anaesthesiology, Dr. B R Ambedkar Medical College, Bengaluru, Karnataka, India

Mridul M Panditrao

1 Department of Anaesthesiology and Intensive Care, Adesh Institute of Medical Sciences and Research (AIMSR), Bathinda, Punjab, India

2 Department of Anaesthesiology, Kasturba Medical College, Mangalore, Manipal Academy of Higher Education, Manipal, India

Sukhminder Jit Singh Bajwa

3 Department of Anaesthesiology and Intensive Care, Gian Sagar Medical College and Hospital, Patiala, Punjab, India

Nishant Sahay

4 Department of Anaesthesiology, All India Institute of Medical Sciences, Patna, Bihar, India

Thrivikrama Padur Tantry

5 Department of Anaesthesiology, A J Institute of Medical Sciences and Research Centre, Kuntikana, Mangalore, Karnataka, India

Associated Data

A dissertation is a practical exercise that educates students about basics of research methodology, promotes scientific writing and encourages critical thinking. The National Medical Commission (India) regulations make assessment of a dissertation by a minimum of three examiners mandatory. The candidate can appear for the final examination only after acceptance of the dissertation. An important role in a dissertation is that of the guide who has to guide his protégés through the process. This manuscript aims to assist students and guides on the basics of conduct of a dissertation and writing the dissertation. For students who will ultimately become researchers, a dissertation serves as an early exercise. Even for people who may never do research after their degree, a dissertation will help them discern the merits of new treatment options available in literature for the benefit of their patients.

INTRODUCTION

The zenith of clinical residency is the completion of the Master's Dissertation, a document formulating the result of research conducted by the student under the guidance of a guide and presenting and publishing the research work. Writing a proper dissertation is most important to present the research findings in an acceptable format. It is also reviewed by the examiners to determine a part of the criteria for the candidate to pass the Masters’ Degree Examination.

The predominant role in a dissertation is that of the guide who has to mentor his protégés through the process by educating them on research methodology, by: (i) identifying a pertinent and topical research question, (ii) formulating the “type” of study and the study design, (iii) selecting the sample population, (iv) collecting and collating the research data accurately, (v) analysing the data, (vi) concluding the research by distilling the outcome, and last but not the least (vii) make the findings known by publication in an acceptable, peer-reviewed journal.[ 1 ] The co-guide could be a co-investigator from another department related to the study topic, and she/he will play an equivalent role in guiding the student.

Research is a creative and systematic work undertaken to increase the stock of knowledge.[ 2 ] This work, known as a study may be broadly classified into two groups in a clinical setting:

Trials: Here the researcher intervenes to either prevent a disease or to treat it.
Observational studies: Wherein the investigator makes no active intervention and merely observes the patients or subjects allocated the treatment based on clinical decisions.[ 3 ]

The research which is described in a dissertation needs to be presented under the following headings: Introduction, Aim of the Study, Description of devices if any or pharmacology of drugs, Review of Literature, Material and Methods, Observations and Results, Discussion, Conclusions, Limitations of the study, Bibliography, Proforma, Master chart. Some necessary certificates from the guide and the institute are a requirement in certain universities. The students often add an acknowledgement page before the details of their dissertation proper. It is their expression of gratitude to all of those who they feel have been directly or indirectly helpful in conduct of the study, data analysis, and finally construction of the dissertation.

Framing the research question (RQ)

It is the duty of the teacher to suggest suitable research topics to the residents, based on resources available, feasibility and ease of conduct at the centre. Using the FINER criteria, the acronym for feasibility, topical interest, novelty, ethicality and relevance would be an excellent way to create a correct RQ.[ 4 ]

The PICOT method which describes the patient, intervention, comparison, outcome and time, would help us narrow down to a specific and well-formulated RQ.[ 5 , 6 ] A good RQ leads to the derivation of a research hypothesis, which is an assumption or prediction of the outcome that will be tested by the research. The research topic could be chosen from among the routine clinical work regarding clinical management, use of drugs e.g., vasopressors to prevent hypotension or equipment such as high flow nasal oxygen to avoid ventilation.

Review of literature

To gather this information may be a difficult task for a fresh trainee however, a good review of the available literature is a tool to identify and narrow down a good RQ and generate a hypothesis. Literature sources could be primary (clinical trials, case reports), secondary (reviews, meta-analyses) or tertiary (e.g., reference books, compilations). Methods of searching literature could be manual (journals) or electronic (online databases), by looking up references or listed citations in existing articles. Electronic database searches are made through the various search engines available online e.g., scholar.google.com, National Library of Medicine (NLM) website, clinical key app and many more. Advanced searches options may help narrow down the search results to those that are relevant for the student. This could be based on synthesising keywords from the RQ, or by searching for phrases, Boolean operators, or utilising filters.

After choosing the topic, an apt and accurate title has to be chosen. This should be guided by the use of Medical Subject Headings (MeSH) terminology from the NLM, which is used for indexing, cataloguing, and searching of biomedical and health-related information.[ 7 ] The dissertation requires a detailed title which may include the objective of the study, key words and even the PICOT components. One may add the study design in the title e.g. “a randomised cross over study” or “an observational analytical study” etc.

Aim and the objectives

The Aims and the Objectives of the research study have to be listed clearly, before initiating the study.[ 8 ] “Gaps” or deficiencies in existing knowledge should be clearly cited. The Aim by definition is a statement of the expected outcome, while the Objectives (which might be further classed into primary and secondary based on importance) should be specific, measurable, achievable, realistic or relevant, time-bound and challenging; in short, “SMART!” To simplify, the aim is a statement of intent, in terms of what we hope to achieve at the end of the project. Objectives are specific, positive statements of measurable outcomes, and are a list of steps that will be taken to achieve the outcome.[ 9 ] Aim of a dissertation, for example, could be to know which of two nerve block techniques is better. To realise this aim, comparing the duration of postoperative analgesia after administration of the block by any measurable criteria, could be an objective, such as the time to use of first rescue analgesic drug. Similarly, total postoperative analgesic drug consumption may form a secondary outcome variable as it is also measurable. These will generate data that may be used for analysis to realise the main aim of the study.

Inclusion and exclusions

The important aspect to consider after detailing when and how the objectives will be measured is documenting the eligibility criteria for inclusion of participants. The exclusion criteria must be from among the included population/patients only. e.g., If only American Society of Anesthesiologists (ASA) I and II are included, then ASA III and IV cannot be considered as exclusion criteria, since they were never a part of the study. The protocol must also delineate the setting of the study, locations where data would be collected, and specify duration of conduct of the dissertation. A written informed consent after explaining the aim, objectives and methodology of the study is legally mandatory before embarking upon any human study. The study should explicitly clarify whether it is a retrospective or a prospective study, where the study is conducted and the duration of the study.

Sample size: The sample subjects in the study should be representative of the population upon whom the inference has to be drawn. Sampling is the process of selecting a group of representative people from a larger population and subjecting them for the research.[ 10 ] The sample size represents a number, beyond which the addition of population is unlikely to change the conclusion of the study. The sample size is calculated taking into consideration the primary outcome criteria, confidence interval (CI), power of the study, and the effect size the researcher wishes to observe in the primary objective of the study. Hence a typical sample size statement can be - “Assuming a duration of analgesia of 150 min and standard deviation (SD) of 15 min in first group, keeping power at 80% and CIs at 95% (alpha error at 0.05), a sample of 26 patients would be required to detect a minimum difference (effect size) of 30% in the duration of analgesia between the two groups. Information regarding the different sampling methods and sample size calculations may be found in the Supplementary file 1 .

Any one research question may be answered using a number of research designs.[ 11 ] Research designs are often described as either observational or experimental. The various research designs may be depicted graphically as shown in Figure 1 .

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Graphical description of available research designs

The observational studies lack “the three cornerstones of experimentation” – controls, randomisation, and replication. In an experimental study on the other hand, in order to assess the effect of treatment intervention on a participant, it is important to compare it with subjects similar to each other but who have not been given the studied treatment. This group, also called the control group, may help distinguish the effect of the chosen intervention on outcomes from effects caused by other factors, such as the natural history of disease, placebo effects, or observer or patient expectations.

All the proposed dissertations must be submitted to the scientific committee for any suggestion regarding the correct methodology to be followed, before seeking ethical committee approval.

Ethical considerations

Ethical concerns are an important part of the research project, right from selection of the topic to the dissertation writing. It must be remembered, that the purpose of a dissertation given to a post-graduate student is to guide him/her through the process by educating them on the very basics of research methodology. It is therefore not imperative that the protégés undertake a complicated or risky project. If research involves human or animal subjects, drugs or procedures, research ethics guidelines as well as drug control approvals have to be obtained before tabling the proposal to the Institutional Ethics Committee (IEC). The roles, responsibilities and composition of the Ethics Committee has been specified by the Directorate General of Health Services, Government of India. Documented approval of the Ethics committee is mandatory before any subject can be enroled for any dissertation in India. Even retrospective studies require approval from the IEC. Details of this document is available at: https://cdsco.gov.in/opencms/resources/UploadCDSCOWeb/2018/UploadEthicsRegistration/Applmhrcrr.pdf .

The candidate and the guide are called to present their proposal before the committee. The ethical implications, risks and management, subjects’ rights and responsibilities, informed consent, monetary aspects, the research and analysis methods are all discussed. The patient safety is a topmost priority and any doubts of the ethical committee members should be explained in medically layman's terms. The dissertation topics should be listed as “Academic clinical trials” and must involve only those drugs which are already approved by the Drugs Controller General of India. More commonly, the Committee suggests rectifications, and then the researchers have to resubmit the modified proposal after incorporating the suggestions, at the next sitting of the committee or seek online approval, as required. At the conclusion of the research project, the ethics committee has to be updated with the findings and conclusions, as well as when it is submitted for publication. Any deviation from the approved timeline, as well as the research parameters has to be brought to the attention of the IEC immediately, and re-approval sought.

Clinical trial registration

Clinical Trial Registry of India (CTRI) is a free online searchable system for prospective registration of all clinical studies conducted in India. It is owned and managed by the National Institute of Medical Statistics, a division of Indian Council of Medical Research, Government of India. Registration of clinical trials will ensure transparency, accountability and accessibility of trials and their results to all potential beneficiaries.

After the dissertation proposal is passed by the scientific committee and IEC, it may be submitted for approval of trial registration to the CTRI. The student has to create a login at the CTRI website, and submit all the required data with the help of the guides. After submission, CTRI may ask for corrections, clarifications or changes. Subject enrolment and the actual trial should begin only after the CTRI approval.

Randomisation

In an experimental study design, the method of randomisation gives every subject an equal chance to get selected in any group by preventing bias. Primarily, three basic types employed in post-graduate medical dissertations are simple randomisation, block randomisation and stratified randomisation. Simple randomisation is based upon a single sequence of random assignments such as flipping a coin, rolling of dice (above 3 or below 3), shuffling of cards (odd or even) to allocate into two groups. Some students use a random number table found in books or use computer-generated random numbers. There are many random number generators, randomisation programs as well as randomisation services available online too. ( https://www-users.york.ac.uk/~mb55/guide/randsery.htm ).

There are many applications which generate random number sequences and a research student may use such computer-generated random numbers [ Figure 2 ]. Simple randomisation has higher chances of unequal distribution into the two groups, especially when sample sizes are low (<100) and thus block randomisation may be preferred. Details of how to do randomisation along with methods of allocation concealment may be found in Supplementary file 2 .

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Figure depicting how to do block randomisation using online resources. (a) generation of a random list (b) transfer of the list to an MS excel file

Allocation concealment

If it is important in a study to generate a random sequence of intervention, it is also important for this sequence to be concealed from all stake-holders to prevent any scope of bias.[ 12 ] Allocation concealment refers to the technique used to implement a random sequence for allocation of intervention, and not to generate it.[ 13 ] In an Indian post-graduate dissertation, the sequentially numbered, opaque, sealed envelopes (SNOSE) technique is commonly used [ Supplementary file 2 ].

To minimise the chances of differential treatment allocation or assessments of outcomes, it is important to blind as many individuals as possible in the trial. Blinding is not an all-or-none phenomenon. Thus, it is very desirable to explicitly state in the dissertation, which individuals were blinded, how they achieved blinding and whether they tested the success of blinding.

Commonly used terms for blinding are

Single blinding: Masks the participants from knowing which intervention has been given.
Double blinding: Blinds both the participants as well as researchers to the treatment allocation.
Triple blinding: By withholding allocation information from the subjects, researchers, as well as data analysts. The specific roles of researchers involved in randomisation, allocation concealment and blinding should be stated clearly in the dissertation.

Data which can be measured as numbers are called quantitative data [ Table 1 ]. Studies which emphasise objective measurements to generate numerical data and then apply statistical and mathematical analysis constitute quantitative research. Qualitative research on the other hand focuses on understanding people's beliefs, experiences, attitudes, behaviours and thus these generate non-numerical data called qualitative data, also known as categorical data, descriptive data or frequency counts. Importance of differentiating data into qualitative and quantitative lies in the fact that statistical analysis as well as the graphical representation may be very different.

Data collection types

In order to obtain data from the outcome variable for the purpose of analysis, we need to design a study which would give us the most valid information. A valid data or measurement tool, is the degree to which the tool measures what it claims to measure. For example, appearance of end tidal carbon dioxide waveform is a more valid measurement to assess correct endotracheal tube placement than auscultation of breath sounds on chest inflation.

The compilation of all data in a ‘Master Chart’ is a necessary step for planning, facilitating and appropriate preparation and processing of the data for analysis. It is a complete set of raw research data arranged in a systematic manner forming a well-structured and formatted, computable data matrix/database of the research to facilitate data analysis. The master chart is prepared as a Microsoft Excel sheet with the appropriate number of columns depicting the variable parameters for each individual subjects/respondents enlisted in the rows.

Statistical analysis

The detailed statistical methodology applied to analyse the data must be stated in the text under the subheading of statistical analysis in the Methods section. The statistician should be involved in the study during the initial planning stage itself. Following four steps have to be addressed while planning, performing and text writing of the statistical analysis part in this section.

Step 1. How many study groups are present? Whether analysis is for an unpaired or paired situation? Whether the recorded data contains repeated measurements? Unpaired or paired situations decide again on the choice of a test. The latter describes before and after situations for collected data (e.g. Heart rate data ‘before’ and ‘after’ spinal anaesthesia for a single group). Further, data should be checked to find out whether they are from repeated measurements (e.g., Mean blood pressure at 0, 1 st , 2 nd , 5 th , 10 th minutes and so on) for a group. Different types of data are commonly encountered in a dissertation [ Supplementary file 3A ].

Step 2. Does the data follow a normal distribution?[ 14 ]

Each study group as well as every parameter has to be checked for distribution analysis. This step will confirm whether the data of a particular group is normally distributed (parametric data) or does not follow the normal distribution (non-parametric data); subsequent statistical test selection mainly depends on the results of the distribution analysis. For example, one may choose the Student's’ test instead of the ‘Mann-Whitney U’ for non-parametric data, which may be incorrect. Each study group as well as every parameter has to be checked for distribution analysis [ Supplementary File 3B ].

Step 3. Calculation of measures of central tendency and measures of variability.

Measures of central tendency mainly include mean, median and mode whereas measures of variability include range, interquartile range (IQR), SD or variance not standard error of mean. Depending on Step 2 findings, one needs to make the appropriate choice. Mean and SD/variance are more often for normally distributed and median with IQR are the best measure for not normal (skewed) distribution. Proportions are used to describe the data whenever the sample size is ≥100. For a small sample size, especially when it is approximately 25-30, describe the data as 5/25 instead of 20%. Software used for statistical analysis automatically calculates the listed step 3 measures and thus makes the job easy.

Step 4. Which statistical test do I choose for necessary analysis?

Choosing a particular test [ Figure 3 ] is based on orderly placed questions which are addressed in the dissertation.[ 15 ]

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Chosing a statistical test, (a). to find a difference between the groups of unpaired situations, (b). to find a difference between the groups of paired situations, (c). to find any association between the variables, (d). to find any agreement between the assessment techniques. ANOVA: Analysis of Variance. Reproduced with permission from Editor of Indian Journal of Ophthalmology, and the author, Dr Barun Nayak[ 15 ]

Is there a difference between the groups of unpaired situations?
Is there a difference between the groups of paired situations?
Is there any association between the variables?
Is there any agreement between the assessment techniques?

Perform necessary analysis using user-friendly software such as GraphPad Prism, Minitab or MedCalc,etc. Once the analysis is complete, appropriate writing in the text form is equally essential. Specific test names used to examine each part of the results have to be described. Simple listing of series of tests should not be done. A typical write-up can be seen in the subsequent sections of the supplementary files [Supplementary files 3C – E ]. One needs to state the level of significance and software details also.

Role of a statistician in dissertation and data analysis

Involving a statistician before planning a study design, prior to data collection, after data have been collected, and while data are analysed is desirable when conducting a dissertation. On the contrary, it is also true that self-learning of statistical analysis reduces the need for statisticians’ help and will improve the quality of research. A statistician is best compared to a mechanic of a car which we drive; he knows each element of the car, but it is we who have to drive it. Sometimes the statisticians may not be available for a student in an institute. Self-learning software tools, user-friendly statistical software for basic statistical analysis thus gain importance for students as well as guides. The statistician will design processes for data collection, gather numerical data, collect, analyse, and interpret data, identify the trends and relationships in data, perform statistical analysis and its interpretation, and finally assist in final conclusion writing.

Results are an important component of the dissertation and should follow clearly from the study objectives. Results (sometimes described as observations that are made by the researcher) should be presented after correct analysis of data, in an appropriate combination of text, charts, tables, graphs or diagrams. Decision has to be taken on each outcome; which outcome has to be presented in what format, at the beginning of writing itself. These should be statistically interpreted, but statistics should not surpass the dissertation results. The observations should always be described accurately and with factual or realistic values in results section, but should not be interpreted in the results section.

While writing, classification and reporting of the Results has to be done under five section paragraphs- population data, data distribution analysis, results of the primary outcome, results of secondary outcomes, any additional observations made such as a rare adverse event or a side effect (intended or unintended) or of any additional analysis that may have been done, such as subgroup analysis.

At each level, one may either encounter qualitative (n/N and %) or quantitative data (mean [SD], median [IQR] and so on.

In the first paragraph of Results while describing the population data, one has to write about included and excluded patients. One needs to cite the Consolidated Standards of Reporting Trials (CONSORT) flow chart to the text, at this stage. Subsequently, highlighting of age, sex, height, body mass index (BMI) and other study characteristics referring to the first table of ‘patients data’ should be considered. It is not desirable to detail all values and their comparison P values in the text again in population data as long as they are presented in a cited table. An example of this pattern can be seen in Supplementary file 3D .

In the second paragraph, one needs to explain how the data is distributed. It should be noted that, this is not a comparison between the study groups but represents data distribution for the individual study groups (Group A or Group B, separately)[ Supplementary file 3E ].

In the subsequent paragraph of Results , focused writing on results of the primary outcomes is very important. It should be attempted to mention most of the data outputs related to the primary outcomes as the study is concluded based on the results of this outcome analysis. The measures of central tendency and dispersion (Mean or median and SD or IQR etc., respectively), alongside the CIs, sample number and P values need to be mentioned. It should be noted that the CIs can be for the mean as well as for the mean difference and should not be interchanged. An example of this pattern can be seen in Supplementary file 3F .

A large number of the dissertations are guided for single primary outcome analysis, and also the results of multiple secondary outcomes are needed to be written. The primary outcome should be presented in detail, and secondary outcomes can be presented in tables or graphs only. This will help in avoiding a possible evaluator's fatigue. An example of this pattern can be seen in Supplementary file 3G .

In the last paragraph of the Results, mention any additional observations, such as a rare adverse event or side effect or describe the unexpected results. The results of any additional analysis (subgroup analysis) then need to be described too. An example of this pattern can be seen in Supplementary file 3H .

The most common error observed in the Results text is duplication of the data and analytical outputs. While using the text for summarising the results, at each level, it should not be forgotten to cite the table or graph but the information presented in a table should not be repeated in the text. Further, results should not be given to a greater degree of accuracy than that of the measurement. For example, mean (SD) age need to be presented as 34.5 (11.3) years instead of 34.5634 (11.349). The latter does not carry any additional information and is unnecessary. The actual P values need to be mentioned. The P value should not be simply stated as ‘ P < 0.05’; P value should be written with the actual numbers, such as ‘ P = 0.021’. The symbol ‘<’ should be used only when actual P value is <0.001 or <0.0001. One should try avoiding % calculations for a small sample especially when n < 100. The sample size calculation is a part of the methodology and should not be mentioned in the Results section.

The use of tables will help present actual data values especially when in large numbers. The data and their relationships can be easily understood by an appropriate table and one should avoid overwriting of results in the text format. All values of sample size, central tendency, dispersions, CIs and P value are to be presented in appropriate columns and rows. Preparing a dummy table for all outcomes on a rough paper before proceeding to Microsoft Excel may be contemplated. Appropriate title heading (e.g., Table 1 . Study Characteristics), Column Headings (e.g., Parameter studied, P values) should be presented. A footnote should be added whenever necessary. For outputs, where statistically significant P values are recorded, the same should be highlighted using an asterisk (*) symbol and the same *symbol should be cited in the footnote describing its value (e.g., * P < 0.001) which is self-explanatory for statistically significance. One should not use abbreviations such as ‘NS’ or ‘Sig’ for describing (non-) significance. Abbreviations should be described for all presented tables. A typical example of a table can be seen in Figure 4 .

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Example of presenting a table

Graphical images

Similar to tables, the graphs and diagrams give a bird's-eye view of the entire data and therefore may easily be understood. bar diagrams (simple, multiple or component), pie charts, line diagrams, pictograms and spot maps suit qualitative data more whereas the histograms, frequency polygons, cumulative frequency, polygon scatter diagram, box and whisker plots and correlation diagrams are used to depict quantitative data. Too much presentation of graphs and images, selection of inappropriate or interchanging of graphs, unnecessary representation of three-dimensional graph for one-dimensional graphs, disproportionate sizes of length and width and incorrect scale and labelling of an axis should be avoided. All graphs should contain legends, abbreviation descriptions and a footnote. Appropriate labelling of the x - and the y -axis is also essential. Priori decided scale for axis data should be considered. The ‘error bar’ represents SDs or IQRs in the graphs and should be used irrespective of whether they are bar charts or line graphs. Not showing error bars in a graphical image is a gross mistake. An error bar can be shown on only one side of the line graph to keep it simple. A typical example of a graphical image can be seen in Figure 5 . The number of subjects (sample) is to be mentioned for each time point on the x -axis. An asterisk (*) needs to be put for data comparisons having statistically significant P value in the graph itself and they are self-explanatory with a ‘stand-alone’ graph.

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Example of an incorrect (a) and correct (b) image

Once the results have been adequately analysed and described, the next step is to draw conclusions from the data and study. The main goal is to defend the work by staging a constructive debate with the literature.[ 16 ] Generally, the length of the ‘ Discussion ’ section should not exceed the sum of other sections (introduction, material and methods, and results).[ 17 ] Here the interpretation, importance/implications, relevance, limitations of the results are elaborated and should end in recommendations.

It is advisable to start by mentioning the RQ precisely, summarising the main findings without repeating the entire data or results again. The emphasis should be on how the results correlate with the RQ and the implications of these results, with the relevant review of literature (ROL). Do the results coincide with and add anything to the prevalent knowledge? If not, why not? It should justify the differences with plausible explanation. Ultimately it should be made clear, if the study has been successful in making some contribution to the existing evidence. The new results should not be introduced and any exaggerated deductions which cannot be corroborated by the outcomes should not be made.

The discussion should terminate with limitations of the study,[ 17 ] mentioned magnanimously. Indicating limitations of the study reflects objectivity of the authors. It should not enlist any errors, but should acknowledge the constraints and choices in designing, planning methodology or unanticipated challenges that may have cropped up during the actual conduct of the study. However, after listing the limitations, the validity of results pertaining to the RQ may be emphasised again.

This section should convey the precise and concise message as the take home message. The work carried out should be summarised and the answer found to the RQ should be succinctly highlighted. One should not start dwelling on the specific results but mention the overall gain or insights from the observations, especially, whether it fills the gap in the existing knowledge if any. The impact, it may have on the existing knowledge and practices needs to be reiterated.

What to do when we get a negative result?

Sometimes, despite the best research framework, the results obtained are inconclusive or may even challenge a few accepted assumptions.[ 18 ] These are frequently, but inappropriately, termed as negative results and the data as negative data. Students must believe that if the study design is robust and valid, if the confounders have been carefully neutralised and the outcome parameters measure what they are intended to, then no result is a negative result. In fact, such results force us to critically re-evaluate our current understanding of concepts and knowledge thereby helping in better decision making. Studies showing lack of prolongation of the apnoea desaturation safety periods at lower oxygen flows strengthened belief in the difficult airway guidelines which recommend nasal insufflations with at least 15 L/min oxygen.[ 19 , 20 , 21 ]

Publishing the dissertation work

There are many reporting guidelines based upon the design of research. These are a checklist, flow diagram, or structured text to guide authors in reporting a specific type of research, developed using explicit methodology. The CONSORT[ 22 ] and Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) initiatives,[ 23 ] both included in the Enhancing the Quality and Transparency of Health Research (EQUATOR) international network, have elaborated appropriate suggestions to improve the transparency, clarity and completeness of scientific literature [ Figure 6 ].

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Equator publishing tree

All authors are advised to follow the CONSORT/STROBE checklist attached as Supplementary file 4 , when writing and reporting their dissertation.

For most dissertations in Anaesthesiology, the CONSORT, STROBE, Standards for Reporting Diagnostic accuracy studies (STARD) or REporting recommendations for tumour MARKer prognostic studies (REMARK) guidelines would suffice.

Abstract and Summary

These two are the essential sections of a dissertation.

It should be at the beginning of the manuscript, after the title page and acknowledgments, but before the table of contents. The preparation varies as per the University guidelines, but generally ranges between 150 to 300 words. Although it comes at the very beginning of the thesis, it is the last part one writes. It must not be a ‘copy-paste job’ from the main manuscript, but well thought out miniaturisation, giving the overview of the entire text. As a rule, there should be no citation of references here.

Logically, it would have four components starting with aims, methods, results, and conclusion. One should begin the abstract with the research question/objectives precisely, avoiding excessive background information. Adjectives like, evaluate, investigate, test, compare raise the curiosity quotient of the reader. This is followed by a brief methodology highlighting only the core steps used. There is no need of mentioning the challenges, corrections, or modifications, if any. Finally, important results, which may be restricted to fulfilment (or not), of the primary objective should be mentioned. Abstracts end with the main conclusion stating whether a specific answer to the RQ was found/not found. Then recommendations as a policy statement or utility may be made taking care that it is implementable.

Keywords may be included in the abstract, as per the recommendations of the concerned university. The keywords are primarily useful as markers for future searches. Lastly, the random reader using any search engine may use these, and the identifiability is increased.

The summary most often, is either the last part of the Discussion or commonly, associated with the conclusions (Summary and Conclusions). Repetition of introduction, whole methodology, and all the results should be avoided. Summary, if individually written, should not be more than 150 to 300 words. It highlights the research question, methods used to investigate it, the outcomes/fallouts of these, and then the conclusion part may start.

References/bibliography

Writing References serves mainly two purposes. It is the tacit acknowledgement of the fact that someone else's written words or their ideas or their intellectual property (IP) are used, in part or in toto , to avoid any blame of plagiarism. It is to emphasise the circumspective and thorough literature search that has been carried out in preparation of the work.

Vancouver style for referencing is commonly used in biomedical dissertation writing. A reference list contains details of the works cited in the text of the document. (e.g. book, journal article, pamphlet, government reports, conference material, internet site). These details must include sufficient details so that others may locate and access those references.[ 24 ]

How much older the references can be cited, depends upon the university protocol. Conventionally accepted rule is anywhere between 5-10 years. About 85% of references should be dispersed in this time range. Remaining 15%, which may include older ones if they deal with theories, historical aspects, and any other factual content. Rather than citing an entire book, it is prudent to concentrate on the chapter or subsection of the text. There are subjective variations between universities on this matter. But, by and large, these are quoted as and when deemed necessary and with correct citation.

Bibliography is a separate list from the reference list and should be arranged alphabetically by writing name of the ‘author or title’ (where no author name is given) in the Vancouver style.

There are different aspects of writing the references.[ 24 ]

Citing the reference in the form of a number in the text. The work of other authors referred in the manuscript should be given a unique number and quoted. This is done in the order of their appearance in the text in chronological order by using Arabic numerals. The multiple publications of same author shall be written individually. If a reference article has more than six authors, all six names should be written, followed by “ et al .” to be used in lieu of other author names. It is desirable to write the names of the journals in abbreviations as per the NLM catalogue. Examples of writing references from the various sources may be found in the Supplementary file 5 .

Both the guide and the student have to work closely while searching the topic initially and also while finalising the submission of the dissertation. But the role of the guide in perusing the document in detail, and guiding the candidate through the required corrections by periodic updates and discussions cannot be over-emphasised.

Assessment of dissertations

Rarely, examiners might reject a dissertation for failure to choose a contemporary topic, a poor review of literature, defective methodology, biased analysis or incorrect conclusions. If these cannot be corrected satisfactorily, it will then be back to the drawing board for the researchers, who would have to start from scratch to redesign the study, keeping the deficiencies in mind this time.

Before submission, dissertation has to be run through “plagiarism detector” software, such as Turnitin or Grammarly to ensure that plagiarism does not happen even unwittingly. Informal guidelines state that the percentage plagiarism picked up by these tools should be <10%.

No work of art is devoid of mistakes/errors. Logically, a dissertation, being no exception, may also have errors. Our aim, is to minimise them.

The dissertation is an integral part in the professional journey of any medical post-graduate student. It is also an important responsibility for a guide to educate his protégé, the basics of research methodology through the process. Searching for a gap in literature and identification of a pertinent research question is the initial step. Careful planning of the study design is a vitally important aspect. After the conduct of study, writing the dissertation is an art for which the student often needs guidance. A good dissertation is a good description of a meticulously conducted study under the different headings described, utilising the various reporting guidelines. By avoiding some common errors as discussed in this manuscript, a good dissertation can result in a very fruitful addition to medical literature.

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Biomedical Science BSc: IMDSCI399 Dissertation

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Science Dissertation Topics

Published by Carmen Troy at January 9th, 2023 , Revised On October 5, 2023

Introduction

The exact pinnacle point of the academic life of a science student is to test their understanding of the science by identifying a real-life science problem and then figuring out the solution through res

Science is extraordinarily vast and comprises various branches of science, from biomedical sciences to modern sciences and organic sciences. Are you struggling to find intriguing and manageable topic ideas for your science dissertation? Don’t worry; we are here to assist you in your endeavour.

To help you get started with brainstorming for science topic ideas, we have developed a list of the latest topics that can be used for writing your science dissertation.

PhD qualified writers of our team have developed these topics, so you can trust to use these topics for drafting your dissertation.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the problem, research question , aim and objectives, literature review along with the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our dissertation example to get an idea of how to structure your dissertation .

You can review step by step guide on how to write your dissertation here.

2022 Science Research Topics

Topic 1: how do our genes influence our lifestyle and behavior.

Research Aim: Inherited genetic predispositions largely determine individual differences in intellectual ability, personality, and mental health. Behavior also displays indicators of genetic influence; for example, how somebody reacts to stressful circumstances reflects some genetic influence. This research aims to find the impact of genes on a person’s lifestyle and behavior. The study will also examine the ratio of people likely to be affected by genetics.

Topic 2: What effect do schools have on childhood obesity? The case in the UK schools.

Research Aim: Over the last few years, the world has seen a dramatic rise in the frequency of childhood obesity. When the children finish elementary school, one-third of youngsters in the UK are overweight or obese. The research will aim to identify the problems that cause obesity in children in UK schools. It will also explain how obesity causes other health issues in children. The research will also give strategies and frameworks to reduce the obesity rate in children in schools.

Topic 3: The role of biotechnology in developing more effective vaccines.

Research Aim: The research will aim to identify the role of biotechnology in developing more effective vaccines. Vaccination is amongst the most effective methods of combating infectious diseases. It was solely accountable for eradicating chickenpox and controlling yellow fever, polio, and Rubella in humans and exotic Newcastle disease, FMD, and fowl paralysis in poultry. The research will also explain how biotechnology has helped scientists eradicate diseases worldwide.

Topic 4: How is public transportation better for the atmosphere than private transport?

Research Aim: The research will aim to find the benefits of public transportation and why it is better than private transportation for the environment. The current amount of automobile transport globally is becoming a social, environmental, and economic issue. The research will also examine the influence of private transportation on the environment and health of the public. It will also explain the strategies to reduce the use of personal vehicles and how public transport can be improved.

Topic 5: Will nanotechnology in genome research contribute to the development of health standards?

Research Aim: The research will aim to investigate the use of nanotechnology in genome research and how it will help develop health standards. Curiosity, amazement, and creativity are human attributes that have existed since the dawn of time. People worldwide have turned their intellectual curiosity into scientific investigation and technique. In recent years, there has been an incredible increase in research in the field of nanoscience. There is growing hope that nanotechnology applied to medicine and dentistry may lead to substantial disease detection, treatment, and prevention advancements.

Covid-19 Pharmacology Research Topics

Topic 1: pharmacologic treatments of covid-19.

Research Aim: This study will focus on investigating the Pharmacologic treatments of COVID-19

Topic 2: The role of science and scientists during Coronavirus pandemic

Research Aim: This study will address the contributions of science and scientists during the COVID-19

Topic 3: The biology of the Coronavirus pandemic

Research Aim: This study will analyse the biology of the Coronavirus pandemic; its symptoms, risks, and preventive measures will be discussed.

Topic 4: The long-term effects of the Coronavirus pandemic on the field of science

Research Aim: This study will focus on predicting the long-term effects of Coronavirus pandemic on the field of science

Science Dissertation Topics 2021

Topic 1: epidemiology and coronavirus.

Research Aim: This research aims to focus on COVID-19 Epidemiology to get in-depth information about the disease.

Topic 2: Impacts of climate changes on agriculture

Research Aim: This research aims to study the impacts of climate changes on agriculture, address the issues of the farmers, especially in Asian countries and suggest possible solutions solve them

Topic 3: A study on endangered species

Research Aim: This research aims to identify and gather information about endangered species, study their anatomy, and determine the reasons for their extinction.

Topic 4: Types of diets- a comparative study

Research Aim: This research aims to identify and compare the types of diets- a comparative study. Measure their effectiveness and provide an evidence-based conclusion to achieve a healthy lifestyle.

Topic 5: Hormonal imbalance - a comparative study

Research Aim: This research aims to address hormonal imbalance issues among teenage girls and women and conduct a comparative study to cover all important aspects of this topic.

Pharmacology Dissertation Topics

Topic 1: harnessing ion-binding sites for g-protein coupled receptors pharmacology (gpcr)..

Research Aim: In this research, the vital role of endogenous ions in the function and pharmacology of G-Protein Coupled Receptors (GPCR) will be observed. The theoretical synthesis and highlight or recent advancements in the functional, biophysical, and structural characterization of GPCR bounded ions will also be discussed.

Topic 2: Bisphosphonate Pharmacology

Research Aim: In this research, the biological effects of bisphosphonates as inhibitors for the processes of calcification and bone resorption as well as their later use for the treatment of skeletal disorders is discussed. Other potential purposes of bisphosphonate, such as its applications to treat cardiovascular diseases and radiation protection, are also considered.

Topic 3: Neurobiology and Molecular Pharmacology of Rapid-Acting Antidepressants.

Research Aim: This research will explain why the reconceptualisation of depression treatment soon. The clinical data of each rapid-action antidepressant will be compared as well as their mechanism of action. Additionally, the drug’s neurobiological circuits can be applied to the formation of later on medication.

Topic 4: System Pharmacology and Pharmacometrics in regards to metabolic bone disease.

Research Aim: This research will focus on the mathematical modelling and various simulations of drug concentrations, effects, and the physiological system in which they interact. This is useful for the preclinical, translational, and clinical development of the drug in question. This research will focus on medications for various metabolic bone diseases.

Topic 5: The Pharmacology of inhaled anaesthetics.

Research Aim: In this research, the effects of inhaled anesthesia will be discussed compared to general anesthesia. Its impact with low, average, and high doses in humans and animals will also be explained.

Topic 6: Pharmacology of cancer.

Research Aim: In this research, the molecular structure of various tumors is discussed along with the therapeutic issues faced for these ailments and their treatments. Target spots for treatment and different chemical mixes for its treatments are also explained in this research.

Public Health Dissertation Topics

Topic 1: to protect health through the important role of climate action..

Research Aim: In this research, the effects of climate change are explained as well as its adverse impacts on human health. Ways to control climate change and reverse its harmful effects are also discussed in this paper.

Topic 2: The effect of electronic health records on health care quality and utilisation.

Research Aim: In this research, the universal electronic health recording system is discussed. This research will examine the various factors that influence electronic health recordings, such as clinical care benefits, financial implications, and cost and time efficiency.

Topic 3: The assessment of health impacts in low and middle-income countries.

Research Aim: This research will focus on studying the shortcomings of health care and its impact on societies and individuals living in low and middle-income countries. The effort to overcome these shortcomings and long-term solutions for these countries is also discussed here.

Topic 4: Dementia care through community-based activity: Museum object handling.

Research Aim: This research will highlight the importance of health-promoting by studying the effect of handling museum objects by people with dementia at stages. The study will consider the stage of dementia faced along with gender, time, domain, and age.

Topic 5: Health and green space.

Research Aim: This research will observe the effects of green space or natural environment on humans’ mental and physical health. The impact of living in a natural setting and living in an urban area will also be compared in this paper. The effect of living in a green space on essential biological processes such as pregnancy will be discussed in detail.

Topic 12: Public health in association with the quality of drinking water.

Research Aim: This research will study the effect of the world’s varying water qualities and their impact on human health. This research will also include studying different water-borne diseases and how to restrict and prevent them.

How Can ResearchProspect Help?

ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service which will include a brief introduction to the topic, research questions , literature review , methodology , expected results , and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service!

Veterinary Medicine Dissertation Topics

Topic 1: the use of cannabis in veterinary medicines..

Research Aim: This research will study the effects of cannabis treatment on animals. The impact of cannabis on animals will be compared to the effects felt on the human body. The way an animal’s body reacts to cannabis and its effect on various body systems will also be observed.

Topic 2: Cardiomyopathies inheritance in veterinary medicines.

Research Aim: This research will aim to identify the effects of cardiomyopathy in animals in an attempt to seek a solution to this problem in humans. Veterinary medication is a mode in which it is easier to study this disease’s effects in animals of a single species. Using this method makes it easier to identify the areas of translational research and observe the future direction of this cardiovascular disease.

Topic 3: The potential use of amniotic stem cells in veterinary medications.

Research Aim: This research will observe the effect of using amniotic stem cells in veterinary medicines to curb some animal illnesses. The collection of these amniotic stem cells is done by collecting the discarded fetal membrane. The collection and separation of the stem cells from the fetal membrane are also explained.

Topic 4: The harm caused in veterinary hospitals due to medical errors.

Research Aim: This research will highlight the overall mortality rate of animals in three veterinary hospitals within a time span of three years. This figure is compared to the mortality rate of humans in the same time period. The reasons for the mortality of animals due to medical errors are also discussed, along with solutions.

Topic 5: Bulldog disorders in the UK in 2019 which are under primary veterinary care.

Research Aim: This research will take an in-depth study of the increased disorders observed in bulldogs in the UK in 2019 only. This research will cover all aspects of bulldog disorders, including age, weight, height and length, cause of mortality, diet, and veterinary plans. This research aims to highlight these factors to improve the health and wellbeing of this breed.

Topic 6: Controlling platyhelminth parasites in fish by using praziquantel.

Research Aim: This research will review the effect of praziquantel treatment on fish found to be infected with the platyhelminth parasite. The study will use captive fish since they are more susceptible to showing the parasite results than wild fish. This paper will also discuss the effect of this parasite if a human ingests an infected fish. The efficiency of the praziquantel and its toxicity information, assessments of administration routes, and pharmacokinetics are also reviewed.

Diseases and Pathogens Dissertation Topics

Topic 1: control of infectious diseases through precision epidemiology..

Research Aim: This research will explain the transmission mode of infectious diseases and how they spread. The process of precision epidemiology will also be explained. The use of precision epidemiology to treat infectious diseases by methods such as genome-based and individual level treatments is also discussed.

Topic 2: Reconstruction and prediction of viral epidemic diseases.

Research Aim: This research will provide a detailed study of the increase in viral epidemics globally. The re-occurrence of diseases once thought to be under control is also provided in this research. Methods to develop models for the prediction and the reconstruction of future epidemics are also discussed to help prevent such outbreaks.

Topic 3: Emerging pathogens and viral febrile illness.

Research Aim: This research will explain the exponential rise of newly emerging pathogens that the world is or will later face in a future epidemic. The study of new pathogens is carried out by the study of patients who contract a febrile illness. The complete research of the febrile virus from incubation to the human body is explored in this paper.

Topic 4: The Study of pathology and pathogenesis of Chagas heart disease.

Research Aim: This research will focus on the aspect of Chagas’s heart disease. The study will explain the mechanism — mode of transfer and the incubation period of the virus. The carrier of the virus in which it remains dormant is also studied along with its habitat and precautionary methods to avoid it.

IT in Biomedical Science Dissertation Topics

Topic 1: health care and medicine in the future..

Research Aim: This research will look at the development and effects of integrating information technology and biomedicine. All the advantages and disadvantages of introducing information technology into the biomedical sciences will be weighed together.

Topic 2: An introduction to Biomedical Informatics.

Research Aim: This research will focus on biomedical informatics’s complete detail. Since it does not have an adequately well-explained definition, the student will attempt to effectively explain the convergence of information technology and biomedicine.

Topic 3: Educating physicians through the use of Biomedical Informatics.

Research Aim: This research will look into the use of biomedical informatics for the education of young doctors and physicians. The study will examine the advantages of using biomedical informatics in physicians’ training and education compared to conventional methods.

Topic 4: The integration of Biomedical Informatics in clinical trials by new methods.

Research Aim: This research will discuss the advantages of implementing biomedical informatics in clinical trials. This includes the ease of data collection, interpretation, and analysis.

Topic 5: A review of the application of Biomedical Informatics in asthma care.

Research Aim: This research will highlight the unnecessary variation of patient care for asthma patients. A complete systematic view of the application of biomedical informatics in asthma patients’ care will also be discussed, along with its advantages and disadvantages in applying this system to asthma care.

Topic 6: The need for Biomedical Informatics for military research.

Research Aim: This research will explain the need for integrating biomedical informatics into military research. Biomedical informatics integration in military research will affect four focus areas: Health and Clinic Informatics, E-Health, Combat Health Informatics, and Bioinformatics and Biomedical Computation.

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Immunology and Biochemistry Dissertation Topics

Topic 1: the use of terrestrial habitat to heighten the immune system function of polar bears..

Research Aim: This research addresses climate change because a large number of polar bears are forced to spend the summertime on the shores. The immunity of bears on ice and those onshore will be compared to observe any changes in both bears’ immunity.

Topic 2: Inflammation and immune system regulation by Vitamin E.

Research Aim: This research aims to explain the role of vitamin E in regulating inflammation and the management of the immune system. Excess, moderate, and deficient amounts of vitamin E on the immune system and the region of inflammation are also described.

Topic 3: To Determine the responsiveness of antibodies towards vaccines by immune mechanisms.

Research Aim: This research will highlight the dangers of the lack of vaccine effectiveness and characterize the vaccines into groups of late and early response times. The antibodies’ response rates to their respective vaccines will be noted and compared to others’ response rates in the groups.

Topic 4: A relational study between immunology and food components.

Research Aim: This research will analyse the impact that different food components have on adults’ immune systems. The research looks to examine the characteristics of allergic reactions caused by food groups. The study will use patient data from emergency rooms in the UK.

Topic 5: The evolution to autoimmunity with reference to the Biochemistry of humans and viruses.

Research Aim: This research will compare and contrast the peptide binding of five disease-causing viruses in humans. The origin of the virulent materials and their individual effect on an adult body is discussed. The characteristic of autoimmunity is also explained by observing the immunity of humans over time.

Epidemiology Dissertation Topics

Topic 1: epidemiology of kidney diseases in the united states for the year 2018..

Research Aim: This research will analyze the data collected in the United States for 2018 in adults. The analysis will cover all the factors that cause renal diseases in adults of the US and categorize illnesses into different groups such as age, diet, obesity, hypertension, diabetes, and other conditions.

Topic 2: Epidemiology of Alzheimer’s disease in the UK.

Research Aim: This research will analyse the increasing and widespread age-associated dementia in the world’s elderly population. The analysis will cover the elderly populace of the UK over the past 3 years. The factors in the increase in the number of Alzheimer’s patients will also be discussed.

Topic 3: Epidemiology of invasive B Streptococcal infections among nonpregnant women in the UK.

Research Aim: This research will analyze the data collected from 2010 to 2018 concerning the incidents of B Streptococcus infections found in nonpregnant women of the United Kingdom. Factors that cause the rise in this infection are also discussed, and preventive measures for B Streptococcus infections.

Topic 4: Epidemiology of obesity and pathogenesis in the US.

Research Aim: This research will analyze the data collected via a survey of adults’ obesity rate in the United States from the past 5 years. The issue of obesity will be discussed along with the factors causing a rise in the obesity rate in the US. Prevention and cautionary measures to reduce the rate of obesity in adults are also discussed.

Important Notes:

As a science looking to get good grades, it is essential to develop new ideas and experiment on existing scientific theories – i.e., to add value and interest in the topic of your research.

The field of science is vast and interrelated to many other academic disciplines like civil engineering , construction , law , and even healthcare . That is why it is imperative to create a scientific dissertation topic that is articular, sound, and actually solves a practical problem that may be rampant in the field.

We can’t stress how important it is to develop a logical research topic; it is based on your entire research. There are several significant downfalls to getting your topic wrong; your supervisor may not be interested in working on it, the topic has no academic credit-ability, the research may not make logical sense, there is a possibility that the study is not viable.

This impacts your time and efforts in writing your dissertation as you may end up in the cycle of rejection at the initial stage of the dissertation. That is why we recommend reviewing existing research to develop a topic, taking advice from your supervisor, and even asking for help in this particular stage of your dissertation.

Keeping our advice in mind while developing a research topic will allow you to pick one of the best science dissertation topics that fulfill your requirement of writing a research paper and adds to the body of knowledge.

Therefore, it is recommended that when finalizing your dissertation topic, you read recently published literature to identify gaps in the research that you may help fill.

Remember- dissertation topics need to be unique, solve an identified problem, be logical, and be practically implemented. Please look at some of our sample scientific dissertation topics to get an idea for your dissertation.

How to Structure your Science Dissertation

A well-structured dissertation can help students to achieve a high overall academic grade.

A Title Page
Acknowledgments
Declaration
Abstract: A summary of the research completed
Table of Contents
Introduction : This chapter includes the project rationale, research background, key research aims and objectives, and the research problems. An outline of the structure of a dissertation can also be added to this chapter.
Literature Review : This chapter presents relevant theories and frameworks by analyzing published and unpublished literature available on the chosen research topic to address research questions . The purpose is to highlight and discuss the selected research area’s relative weaknesses and strengths while identifying any research gaps. Break down the topic and key terms that can positively impact your dissertation and your tutor.
Methodology: The data collection and analysis methods and techniques employed by the researcher are presented in the Methodology chapter, which usually includes research design, research philosophy, research limitations, code of conduct, ethical consideration, data collection methods, and data analysis strategy .
Findings and Analysis: Findings of the research are analyzed in detail under the Findings and Analysis chapter. All key findings/results are outlined in this chapter without interpreting the data or drawing any conclusions. It can be useful to include graphs , charts, and tables in this chapter to identify meaningful trends and relationships.
Discussion and Conclusion: The researcher presents his interpretation of the results in this chapter and states whether the research hypothesis has been verified or not. An essential aspect of this section is establishing the link between the results and evidence from the literature. Recommendations with regards to the implications of the findings and directions for the future may also be provided. Finally, a summary of the overall research, along with final judgments, opinions, and comments, must be included in the form of suggestions for improvement.
References: Make sure to complete this following your University’s requirements
Bibliography
Appendices: Any additional information, diagrams, and graphs used to complete the dissertation but not part of the dissertation should be included in the Appendices chapter. Essentially, the purpose is to expand the information/data.

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Our thesis and dissertation-based M.S. and Ph.D. programs are focused on providing individualized, competency-based education to equip our graduates with the skills, abilities, and attitudes to pursue diverse careers related to biomedical sciences.

During the first year, our students acquire a background in biomedical science, consisting of topics in biochemistry, molecular biology, cell biology, pharmacology, physiology and immunology. They also complete lab rotations to identify the mentor and lab for their thesis or dissertation work. Students also complete discipline-specific advanced courses and electives based on their needs and academic discipline.

While working on their thesis or dissertation research, students participate in mentored experimental research projects with faculty who match their interests.

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Home > STUDENT-WORKS > PROGRAM-ETD > BIOMEDICAL-ETD

Biomedical Sciences Theses and Dissertations

If you are a graduate student submitting your thesis or dissertation, please click here to access the submission form.

Theses/Dissertations from 2023 2023

Intestinal Microbiome, Fecal Fermentation Profile, and Health Indices in HIV Infected Men versus Non-Infected Controls , Mary Andreae and Mary C. Andreae Mrs

Microsporidian Spores and the Integrin Binding Loop of the MADAM Protein Are Important for Integrin Signaling and Attachment to Host Cells , Cindy L. Barrett

Elucidation of the Role of Avocado WRI1 and WRI2 and Their Ability to Affect Oil Content and Composition When Co-expressed With PDAT1 and DGAT1 , Jyoti Ranjan Behera

Flavonol Glucosylation: A Structural Investigation of the Flavonol Specific 3-O Glucosyltransferase Cp3GT , Aaron S. Birchfield

Effect of Macrophage Expressed α7 Nicotinic Acetylcholine Receptor (α7nAChR) on Migration of Macrophages During Inflammation , Kasey Keever

MET Alterations in Glioblastoma: Characterization of Patient-Derived Xenografts and Therapeutic Strategies , Anna Musket

Investigating the Role of Maternal Adiposity on Human Breast Milk and Preterm Infant Stool Short Chain Fatty Acid and Microbiome Profiles , Kristy L. Thomas

Theses/Dissertations from 2022 2022

Importance of the Microhabitat and Microclimate Conditions in the Northern Gray-cheeked Salamander (Plethodon montanus) Across an Elevation Gradient , Trevor Chapman

A Functional Study of Topological DNA Problem in Human T cells During Chronic Viral Infection , Xindi Dang

Knockdown of C. elegans NAD Kinases NADK-1 or NADK-2 Induces an Antioxidant Response Without Affecting Lifespan , Henry Gong

Investigating the PI3K/AKT/ATM Pathway, Telomeric DNA Damage, T Cell Death, and CRISPR/Cas9-mediated Gene Editing During Acute and Chronic HIV Infection , Sushant Khanal

Validation of the 40 Hz Auditory Steady State Response as a Pharmacodynamic Biomarker of Evoked Neural Synchrony , Muhammad Ummear Raza

The Mechanisms of Mitochondrial Dysfunction in T Cell Aging during Chronic Viral Infection , Madison B. Schank

Theses/Dissertations from 2021 2021

GABAergic-Related Pathology in the Anterior Cingulate Cortex of Postmortem Human Brain Tissue in Autism Spectrum Disorder , Gethien Andrew

Endothelial Heat Shock Protein A12B and Yes-associated Protein Cooperatively Promote Angiogenesis Following Myocardial Infarction , Min Fan

Trained Immunity Enhances the Immune Response and Maintains Microbiome Diversity in Aging and Sepsis , P. Spencer Gill

Genital Chlamydia Infection is Influenced by the Female Sex Hormones Estrogen and Progesterone in Vivo , Amy Gail Gravitte

Role of Ataxia Telangiectasia Mutated Kinase in Western-type Diet-induced Cardiac Outcomes under Basal and Ischemic Conditions , Mary Wingard

Theses/Dissertations from 2020 2020

Development, Expansion and Role of Myeloid-Derived Suppressor Cells in Post-Sepsis Immune Suppression , Tuqa Alkhateeb

Axonal Regrowth of Olfactory Sensory Neurons After Chemical Ablation and Removal of Axonal Debris by Microglia , Rudy Chapman

Prevention of Chronic Inflammation by Targeting Macrophage Integrin aDb2 , Cady Forgey

Behavioral and Neurobiological Evidence of Epigenetic Transmission in the Neonatal Quinpirole Rodent Model of Schizophrenia , Wesley Gill

Understanding the Implications of Anandamide, an Endocannabinoid in an Early Land Plant, Physcomitrella patens , Md Imdadul Haq

Immune Activation Induces Telomeric DNA Damage, Reduces Memory Precursors, and Promotes Short-lived Effector T Cell Differentiation in Chronic HCV Infection , Lam Nguyen

A Novel Mode of Action of C-reactive Protein in Protecting Against Streptococcus pneumoniae Infection and Synergy with Antibiotics , Donald Ngwa

Chronic Effects of Methylphenidate on Neuronal Viability and Plasticity , Hannah Oakes

Protection Against Atherosclerosis by A Non-native Pentameric CRP that Shares its Ligand Recognition Functions with an Evolutionarily Distant CRP , Asmita Pathak

Roles of Endothelial Cell Heat Shock Protein A12B and β-glucan, a reagent for trained Immunity in the Regulation of Inflammation in Sepsis , Fei Tu

Theses/Dissertations from 2019 2019

Exploration of Ataxia Telangiectasia and Rad3-Related’s (ATR’s) Role in Cell Death Regulation: Implications in Development, Cancer, and Stroke , Brian Cartwright

The Distinct Expressions of Integrins αDβ2 and αMβ2 Differently Regulate Macrophage Migration in 3D Matrix in vitro and in Tissue during Inflammation , Kui Cui

Role of ATM in T Cell Dysfunction During Chronic Viral Infections , Juan Zhao

Theses/Dissertations from 2018 2018

The Combined Neuropharmacology and Toxicology of Major 'Bath Salts' Constituents MDPV, Mephedrone, and Methylone , Serena Allen

The Effect of Alcohol Consumption on Adipokine Secretion , Ashley DeGroat

Quantitative Studies of Amyloidogenic Protein Residue Interaction Networks and Abnormal Ammonia Metabolism in Neurotoxicity and Disease , Jeddidiah Griffin

Metabolic Plasticity in the Cellular Stress Response , Ying Li

HIV Integrase Inhibitor Pharmacogenetics and Clinical Outcomes: An Exploratory Association Study , Derek E. Murrell

Effects of Gender, Age, and Nutrition on Circadian Locomotor Activity Rhythms in the Flesh Fly Sarcophaga crassipalpis , Fritz Prohaska

Characterization of Acyltransferases and WRINKLED Orthologs Involved in TAG Biosynthesis in Avocado , Md Mahbubur Rahman

Virulence Regulation in Pseudomonas aeruginosa via the Alginate Regulators, AlgU and AlgR, the posttranscriptional regulator, RsmA, and the Two-component System, AlgZ/R , Sean Stacey

SIP-428, a SIR2 Deacetylase Enzyme and Its Role in Biotic Stress Signaling Pathway , Bal Krishna Chand Thakuri

Role of Ataxia-Telangiectasia Mutated Kinase in Cardiac Autophagy and Glucose Metabolism Under Ischemic Conditions , Patsy Thrasher

Investigating the Interaction of Monoamines and Diel Rhythmicity on Anti-Predator Behavior in an Orb-Weaving Spider, Larinioides cornutus (Araneae: Araneae) , Rebecca Wilson

Theses/Dissertations from 2017 2017

Role of Cannabinoid Receptor Type 2 (CB2) in Late Stage Atherosclerosis , Makenzie Fulmer

A-type Lamins in Cell Cycle Regulation , Jaime L. Parman-Ryans

Exogenous Ubiquitin: Role in Myocardial Inflammation and Remodeling Post- Ischemia/Reperfusion Injury , Stephanie Scofield

Role of TLRs, Hippo-YAP1 Signaling, and microRNAs in Cardiac Repair and Regeneration of Damaged myocardium During Ischemic Injury , Xiaohui Wang

Theses/Dissertations from 2016 2016

An Investigation into Formulation and Therapeutic Effectiveness of Nanoparticle Drug Delivery for Select Pharmaceutical Agents , Dustin Cooper

Strategies of Balancing: Regulation of Posture as a Complex Phenomenon , Allison Leich Hilbun

Investigation of Novel Functions for DNA Damage Response and Repair Proteins in Escherichia coli and Humans , Benjamin A. Hilton

Exploring the Relationship Between Behaviour and Neurochemistry in the Polyphenic Spider, Anelosimus studiosus (Araneae: Theridiidae) , Jennifer B. Price

In Vitro and In Vivo Characterization of Chlamydia and HSV Co-infection , Jessica A. Slade

A novel role of human DNA damage checkpoint protein ATR in suppressing Ca2+ overload-induced PARP1-mediated necrosis , Hui Wang-Heaton

Pharmacokinetics, Tissue Distribution, Synergistic Activity, and Antitumor Activity of Two Isomeric Flavones , Crystal L. Whitted

Regulation of Acute and Chronic Immune Responses by β-Arrestin2 , Hui Yan

Endothelial HSPA12B is a Novel Protein for the Preservation of Cardiovascular Function in Polymicrobial Sepsis via Exosome MiR-126 , Xia Zhang

Theses/Dissertations from 2015 2015

Role of Ataxia Telangiectasia Mutated Kinase in the Healing Process of the Heart Following Myocardial Infarction , Laura L. Daniel

Theses/Dissertations from 2014 2014

Cellular-based Brain Pathology in the Anterior Cingulate Cortex of Males with Autism Spectrum Disorder , Jessica D. Crawford

Extracellular Ubiquitin: Role in Cardiac Myocyte Apoptosis and Myocardial Remodeling , Christopher Ray Daniels

Novel Therapeutic Approaches for Ischemic Heart and Brain Injury: Modulation of Toll-Like Receptor-Mediated Signaling Pathways and PI3K/Akt Signaling , Chen Lu

Regulation of C-reactive Protein Gene Expression and Function , Avinash N. Thirumalai

A Comprehensive Study of the Effects of Neurotoxins on Noradrenergic Phenotypes, Neuronal Responses and Potential Intervention by Antidepressants in Noradrenergic Cells , Yan Wang

HIF-1α in the Heart: Provision of Ischemic Cardioprotection and Remodeling of Nucleotide Metabolism , Joe Wu

Theses/Dissertations from 2013 2013

An Examination of the Inhibitory Effects of Antibiotic Combinations on Ribosome Biosynthesis in Staphylococcus aureus , Justin Beach

Genetic Imbalances in Endometriosis Detected by Oligonucleotide-Array Based Comparative Genomic Hybridization , Natalie Burke

Arrested and Aberrant: Effects of Amoxicillin in a Murine Model of Chlamydial Infection , Regenia Beth Phillips Campbell

Identification and Characterization of Genetic Factors Involved in Candida-Bacterial Interactions , Sean J. Fox

Mechanisms of the Anti-Pneumococcal Function of C-Reactive Protein , Toh B. Gang

Microsporidia Spore Adherence and Host Cell Infection In Vitro , Cory A. Leonard

New Insights into the Roles of Human DNA Damage Checkpoint Protein ATR in the Regulation of Nucleotide Excision Repair and DNA Damage-Induced Cell Death , Zhengke Li

Novel Ester Substrates for the Detection and Treatment of Prostate Cancer , Christopher Allen McGoldrick

Novel Roles of Replication Protein A Phosphorylation in Cellular Response to DNA Damage , Moises A. Serrano

Bioengineering the Expression of Active Recombinant Human Cathepsin G, Enteropeptidase, Neutrophil Elastase, and C-Reactive Protein in Yeast , Eliot T. Smith

Theses/Dissertations from 2012 2012

Prelamin A Influences a Program of Gene Expression In Regulation of Cell Cycle Control , Christina N. Bridges

Detection and Purification of a Novel Natural Inhibitory Compound from an Isolated Strain of Rhodococcus Using an Agar Extraction Method , Megan Carr

An Investigation of Bacterial Ribonucleases as an Antibiotic Target , Ashley Denise Frazier

Stabilization of the Cardiac Nervous System During Cardiac Stress Induces Cardioprotection , David D. Gibbons

The Effects of Nicotine Administration on Behavior and Markers of Brain Plasticity in a Rodent Model of Psychosis , Marla K. Perna

Effects of Burn Injury on Biological Ethanol and Ethyl Glucuronide Concentrations , Trista Haupt Wright

Theses/Dissertations from 2011 2011

Role of Type 2 Cannabinoid Receptor (CB2) in Atherosclerosis. , Courtney Denise Netherland

Biopharmaceutic and Pharmacokinetic Studies of Sucrose Acetate Isobutyrate as an Excipient for Oral Drug Delivery. , Martin Ray Tant

Theses/Dissertations from 2010 2010

The Effect of Sternocleidomastoid Muscle Activation Pattern and Feedback Condition on the Vestibular Evoked Myogenic Potential. , Mary Jo Davenport

Mosaic Analysis with Double Markers (MADM) as a Method to Map Cell Fates in Adult Mouse Taste Buds. , Preston D. Moore

The Multifaceted Contribution of Natural Killer Cells During Herpes Simplex Type-1 Viral Infection. , Stacie N. Woolard

Theses/Dissertations from 2009 2009

Determining Putative Secondary Product Glucosyltransferase Expression During Citrus paradisi Growth and Development. , Jala Daniel

Dopamine D2 Receptor Priming Enhances Dopaminergic Response to Amphetamine in the Nucleus Accumbens: Role of the D1 and D2 Receptors. , Kimberly Norris Huggins

Localization of Calbindin-D 28k in Extra-Embryonic Membranes of Two Oviparous Scincid Lizards. , Shuo Li

Nectin-1 is Degraded in Chlamydia trachomatis -Infected Genital Epithelial Cells and is Required for Herpes Simplex Virus Co-Infection-Induced C. trachomatis Persistence. , Jingru Sun

Theses/Dissertations from 2008 2008

Elucidating the Role of the α7 Nicotinic Receptor in the Etiology of Schizophrenia. , Michelle Johnson Chandley

Identification of Chlamydial Iron-Responsive Proteins during Intracellular Growth. , Brian D. Dill

Antigen Trafficking within Chlamydia trachomatis -Infected Polarized Human Endometrial Epithelial Cells. , David Kelley Giles

Urinary Excretion of (1-3)-Beta-D-Glucans. , Debra K. Head

Expression, Purification, and Characterization of the Mast Cell Proteases Chymase and Cathepsin G. , Brent E. Lockhart

Characterization of Murine Cardiac Cholinergic Innervation and Its Remodeling in Type 1 Diabetes. , Abigail Marie Mabe

Structural and Biochemical Investigation of the Molecular Mechanisms of DNA Response and Repair in Humans and Escherichia coli . , Steven Michael Shell

Characterization of Heat Shock Protein A12B as a Novel Angiogenesis Regulator. , Rebecca J. Steagall

Herpes Simplex Virus Glycoprotein D/Host Cell Surface Interaction Stimulates Chlamydia trachomatis Persistence via a Novel Pathway. , Jennifer Vanover

Theses/Dissertations from 2007 2007

Characterization of a 30S Ribsomal Subunit Intermediate Found in Escherichia coli Cells Growing with Neomycin and Paromomycin. , Cerrone Renee Foster

Localization of a Microsporidia ADAM (A Disintegrin and Metalloprotease Domain) Protein and Identification of Potential Binding Partners. , Carrie E. Jolly

T-cell Dysfunction by HCV Core Protein Involves PD-1/PD-L1 Signaling. , Billy Ellis King

1, Structural and Functional Studies of Human Replication Protein A; 2 DNA Damage Responses and DNA Repair Defects in Laminopathy-Based Premature Aging. , Yiyong Liu

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TU Dublin use the word "dissertation" for work done as part of an undergraduate or taught master's course, and the word "thesis" for work done for PhD or research masters degrees
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Final Year Dissertations

Dissertations for a number of science undergraduate and taught postgraduate programs are available to view in pdf format from 2014 onwards. To view the outline, layout, citation style and referencing quality of a science eDissertation follow the steps below:

Start at the TU Dublin Library Catalogue

From the drop-down search menu choose Subject or Title Search
Input your program code e.g. TU852. You can use either a current TU Dublin program code or an older DIT code.
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Click on the blue dissertations link and view or download the pdf as required.

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Research Theses

Arrow@TUDublin is the institutional repository for the university and is where researchers and staff make a version of their theses and published articles or book chapters freely available. All material on Arrow is full text. The theses collection for MPhils and PhDs is also available on Arrow.

Open Access Theses and Dissertations (OATD) provides online access to graduate theses and dissertations from over 1100 colleges, universities, and research institutions from around the world.
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The British Library EThOS theses online service offers a search option to over 500,000 doctoral theses. Download instantly for your research, or order a scanned copy quickly and easily.

A selection of research theses is also available for use in TU Dublin Library. A listing of hardcopy PhD theses is available here. Please note that print theses are for use in the library only.

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Edinburgh Medical School thesis and dissertation collection

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Edinburgh Medical School is one of two schools at the College of Medicine and Veterinary Medicine at the University of Edinburgh. The Edinburgh Medical School integrates research and teaching across our three Deaneries: Biomedical Sciences, Clinical Sciences and Molecular,Genetic and Population Health Sciences.

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Investigating an arginase 1⁺ monocyte- macrophage population in driving fibrosis in chronic kidney disease. , in vivo investigation of component-specific functions of the hippo pathway , prevalence of female infertility in the uk armed forces , understanding colorectal cancer risk loci that alter transcriptional dynamics , behaviour change intervention for smokeless tobacco (st) cessation delivered by dentists in a dental setting: a feasibility study , dna methylation & its regulation in colorectal tumours , lesion reversibility in small vessel disease: understanding changes contributing to vascular dementia , effect of autologous macrophage therapy in cirrhosis in response to individual immune reparative pathways: developing a novel therapy , computational techniques to interpret the neural code underlying complex cognitive processes , identifying genomic and phenotypic risks factors for the clinical progression of depressive symptoms , investigating the essential extracellular invadolysin metalloprotease , defining novel regulators of inflammatory signalling in pancreatic cancer , investigating the role of the tumour microenvironment in invasive lobular carcinoma , investigating the molecular drivers of cns disease in a murine model of infant leukaemia , angina pectoris , fanconi anaemia and line-1 retrotransposition in the mammalian genome , profiling neuroinflammation in amyotrophic lateral sclerosis , data usage in paediatric-onset inflammatory bowel disease epidemiology: from clinical observations to nationwide data linkage , network-based embedding methods for multi-omics data analysis , role of stromal-derived igf1 signalling in invasive lobular carcinoma .

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Biomedical Engineering Theses and Dissertations

This collection contains theses and dissertations from the Department of Biomedical Engineering, collected from the Scholarship@Western Electronic Thesis and Dissertation Repository

Theses/Dissertations from 2024 2024

Co-delivery of Adipose-derived Stromal Cells and Endothelial Colony Forming Cells in Novel Cell-assembled Scaffolds as a Pro-angiogenic Cell Therapy Platform , Sarah A. From

Theses/Dissertations from 2023 2023

Multiparametric Classification of Tumor Treatment Using Ultrasound Microvascular Imaging , mahsa bataghva

Towards Patient Specific Mitral Valve Modelling via Dynamic 3D Transesophageal Echocardiography , Patrick Carnahan

Developing a Finite Element Model for Evaluating the Posterior Tibial Slope in a Medial Opening Wedge High Tibial Osteotomy , VIctor Alexander Carranza

Analysis and Characterization of Embroidered Textile Strain Sensors for Use in Wearable Mechatronic Devices , Jose Guillermo Colli Alfaro

Developing Bioactive Hydrogels Containing Cell-derived Extracellular Matrix for Bone and Cartilage Repair , Ali Coyle

Modelling of a TCA-driven Wearable Tremor Suppression Device for People with Parkinson’s Disease , Parisa Daemi

Using Machine Learning Models to Address Challenges in Lung Cancer Care , Salma Dammak

Longitudinal dynamics of cerebrospinal fluid Aꞵ, pTau and sTREM2 reveal predictive preclinical trajectories of Alzheimer’s pathology , Bahaaldin Helal

MAGNETIC RESONANCE IMAGING BIOMARKERS FOR PARKINSON’S DISEASE: A MACHINE LEARNING APPROACH , Dimuthu Henadeerage Don

Detecting Treatment Failure in Rheumatoid Arthritis with Time-Domain Diffuse Optical Methods , Seva Ioussoufovitch

Novel Magnetic Resonance Imaging-Compatible Mechatronic Needle Guidance System for Prostate Focal Laser Ablation Therapy , Eric R. Knull

The Development of Stimuli-responsive Hydrogels from Self-Immolative Polymers , Jared David Pardy

Free-hand Photoacoustic Imaging of Breast Cancer Tissue , Elina Rascevska

Development of a Cell-based Regenerative Strategy to Modulate Angiogenesis and Inflammation in Ischemic Muscle , Fiona E. Serack

Investigation of Dynamic Culture on Matrix-derived Microcarriers as a Strategy to Modulate the Pro-Regenerative Phenotype of Human Adipose-derived Stromal Cells , McKenna R. Tosh

Evaluating EEG–EMG Fusion-Based Classification as a Method for Improving Control of Wearable Robotic Devices for Upper-Limb Rehabilitation , Jacob G. Tryon

Theses/Dissertations from 2022 2022

A two-layer continuous-capillary oxygen transport model: Development and application to blood flow regulation in resting skeletal muscle. , Keith C. Afas

Development of a Hybrid Stereotactic Guidance System For Percutaneous Liver Tumour Ablation , Joeana N. Cambranis Romero

Large-scale Analysis and Automated Detection of Trunnion Corrosion on Hip Arthroplasty Devices , Anastasia M. Codirenzi

The Role of Transient Vibration of the Skull on Concussion , Rodrigo Dalvit Carvalho da Silva

Biomechanical Investigation of Complete and Partial Medial Collateral Ligament Injuries , Callahan Doughty

Towards A Comprehensive Software Suite for Stereotactic Neurosurgery , Greydon Gilmore

The Bio-Mechanical Development and Kinematic Evaluation of Zone I and Zone II Injuries and their Corresponding Surgical Repair Techniques using an In-Vitro Active Finger Motion Simulator: A Cadaveric Study , Mohammad Haddara

Image-based Cochlear Implant Frequency-to-Place Mapping , Luke William Helpard

Mechanical Evaluation of Gyroid Structures to Combat Orthopaedic Implant Infections , Sydney Hitchon

The Development of a Motion Sensing Device for Use in a Home Setting , Jaspreet K. Kalsi

A Novel Ultrasound Elastography Technique for Evaluating Tumor Response to Neoadjuvant Chemotherapy in Patients with Locally Advanced Breast Cancer , Niusha Kheirkhah

Thermo-responsive Antibiotic-Eluting Coatings for Treating Infection near Orthopedic Implants , Jan Chung Kwan

Effects of Modulating the Culture Microenvironment on the Growth and Secretome of Human Adipose-Derived Stromal Cells , Zhiyu Liang

Conducting Polypyrrole Hydrogel Biomaterials For Drug Delivery And Cartilage Tissue Regeneration , Iryna Liubchak

Motion and Crosslinked Polyethylene Wear in Reverse Total Shoulder Arthroplasty , Christopher Millward

Intracardiac Ultrasound Guided Systems for Transcatheter Cardiac Interventions , Hareem Nisar

Investigation of Cell Derived Nanoparticles for Drug Delivery and Osteogenic Differentiation of Human Stem/Stromal Cells , Shruthi Polla Ravi

Quantitative Image Analysis of White Matter Dysregulation Using Brain Normalization for Diagnostic Analysis of Pediatric Hydrocephalus , Renee-Marie Ragguett

Automation through Deep-Learning to Quantify Ventilation Defects in Lungs from High-Resolution Isotropic Hyperpolarized 129Xe Magnetic Resonance Imaging , Tuneesh Kaur Ranota

Early Biological Response of Articular Cartilage to Hemiarthroplasty Wear , Debora Rossetti

Sol-Gel Derived Bioceramic Poly(Diethyl Fumarate – Co – Triethoxyvinylsilane) Composite , Aref Sleiman

The Application of Digital Volume Correlation Bone Strain Measurements in the Osteoarthritic Glenohumeral Joint , Jakub R. Targosinski

Development of Brain-Derived Bioscaffolds for Neural Progenitor Cell Culture and Delivery , Julia Terek

Modelling and Evaluation of Piezoelectric Actuators for Wearable Neck Rehabilitation Devices , Shaemus D. Tracey

Development of a Combined Experimental-Computational Framework to Study Human Knee Biomechanics , Samira Vakili

Investigation on the Performance of Dry Powder Inhalation System for Enhanced Delivery of Levosalbutamol Sulfate , Yuqing Ye

Theses/Dissertations from 2021 2021

Development of a Wireless Telemetry Load and Displacement Sensor for Orthopaedic Applications , William Anderson

Organic-Inorganic Hybrid Biomaterials for Bone Tissue Engineering and Drug Delivery , Neda Aslankoohi

Fabrication Of Inkjet-Printed Enzyme-Based Biosensors Towards Point-Of-Care Applications , Yang Bai

The Use of CT to Assess Shoulder Kinematics and Measure Glenohumeral Arthrokinematics , Baraa Daher

The Development of Region-Specific Decellularized Meniscus Bioinks for 3D Bioprinting Applications , Sheradan Doherty

In Vitro Analyses of the Contributions of the Hip Capsule to Joint Biomechanics , Emma Donnelly

Long-Circulating, Degradable Lanthanide-Based Contrast Agents for Pre-Clinical Microcomputed Tomography of the Vasculature , Eric Grolman

Mixed-reality visualization environments to facilitate ultrasound-guided vascular access , Leah Groves

Diffusion Kurtosis Imaging in Temporal Lobe Epilepsy , Loxlan W. Kasa

Extracellular Matrix-Derived Microcarriers as 3-D Cell Culture Platforms , Anna Kornmuller

3D Printed Polypyrrole Scaffolds for pH Dependent Drug Delivery with Applications in Bone Regeneration , Matthew T. Lawrence

Development of Multifunctional Drug Delivery Systems for Locoregional Therapy , Xinyi Li

Motion Intention Estimation using sEMG-ACC Sensor Fusion , Jose Alejandro Lopez

Biomaterial for Cervical Intervertebral Disc Prosthesis , Helium Mak

Biomechanical Analysis of Ligament Modelling Techniques and Femoral Component Malrotation Following TKA , Liam A. Montgomery

Snapshot Three-Dimensional Surface Imaging With Multispectral Fringe Projection Profilometry , Parsa Omidi

4DCT to Examine Carpal Motion , Sydney M. Robinson

Seizure Detection Using Deep Learning, Information Theoretic Measures and Factor Graphs , Bahareh Salafian

Modeling Fetal Brain Development: A semi-automated platform for localization, reconstruction, and segmentation of the fetal brain on MRI , Jianan Wang

Immobilized Jagged1 for Notch3-specific Differentiation and Phenotype Control of Vascular Smooth Muscle Cells , Kathleen E. Zohorsky

Theses/Dissertations from 2020 2020

Simulation Approaches to X-ray C-Arm-based Interventions , Daniel R. Allen

Implementing a multi-segment foot model in a clinical setting to measure inter-segmental joint motions , Tahereh Amiri

Cardiac Modelling Techniques to Predict Future Heart Function and New Biomarkers in Acute Myocardial Infarction , Sergio C. H. Dempsey

Feasibility of Twisted Coiled Polymer Actuators for Use in Upper Limb Wearable Rehabilitation Devices , Brandon P.R. Edmonds

Metal Additive Manufacturing for Fixed Dental Prostheses , Mai EL Najjar

Using an Internal Auditory Stimulus to Activate the Developing Primary Auditory Cortex: A Fetal fMRI Study , Estee Goldberg

Development of Water-Soluble Polyesters for Tissue Engineering Applications , Trent Gordon

Development Of Hybrid Coating Materials To Improve The Success Of Titanium Implants , Zach Gouveia

A 3D Printed Axon-Mimetic Diffusion MRI Phantom , Tristan K. Kuehn

Development of an Active Infection Monitoring Knee Spacer for Two-Stage Revision , Michael K. Lavdas

Computational Modeling of the Human Brain for mTBI Prediction and Diagnosis , Yanir Levy

Pulmonary Imaging of Chronic Obstructive Pulmonary Disease using Multi-Parametric Response Maps , Jonathan MacNeil

Optimization of Indentation for the Material Characterization of Soft PVA-Cryogels , Md. Mansur ul Mulk

Development and Validation of Augmented Reality Training Simulator for Ultrasound Guided Percutaneous Renal Access , Yanyu Mu

A Biomechanical Investigation into the Effect of Experimental Design on Wrist Biomechanics and Contact Mechanics , Clare E. Padmore

Structure-Function Relationships in the Brain: Applications in Neurosurgery , Daiana-Roxana Pur

The Effect of Joint Alignment After a Wrist Injury on Joint Mechanics and Osteoarthritis Development , Puneet Kaur Ranota

Development and Validation of Tools for Improving Intraoperative Implant Assessment with Ultrasound during Gynaecological Brachytherapy , Jessica Robin Rodgers

Studies on Carbon Quantum Dots with Special Luminescent Properties and Their Capability of Overcoming the Biological Barriers , Ji Su Song

Machine Learning towards General Medical Image Segmentation , Clara Tam

The Migration and Wear of Reverse Total Shoulder Arthroplasty , Madeleine L. Van de Kleut

Video Processing for the Evaluation of Vascular Dynamics in Neurovascular Interventions , Reid Vassallo

Preparation of Intra-articular Drug Delivery Systems for the Treatment of Osteoarthritis , Ian Villamagna

Deep Reinforcement Learning in Medical Object Detection and Segmentation , Dong Zhang

Theses/Dissertations from 2019 2019

Fabrication and Characterization of Collagen-Polypyrrole Constructs Using Direct-Ink Write Additive Manufacturing , Rooshan Arshad

Development of a Force-Based Ream Vector Measurement System For Glenoid Reaming Simulation , David Axford

Investigation of Visual Perceptions in Parkinson's Disease and the Development of Disease Monitoring Software , Matthew Bernardinis

Tissue Equivalent Gellan Gum Gel Materials for Clinical MRI and Radiation Dosimetry , Pawel Brzozowski

Implementation of User-Independent Hand Gesture Recognition Classification Models Using IMU and EMG-based Sensor Fusion Techniques , José Guillermo Collí Alfaro

Scaffold Design Considerations for Soft Tissue Regeneration , Madeleine M. Di Gregorio

Remote Navigation and Contact-Force Control of Radiofrequency Ablation Catheters , Daniel Gelman

High-throughput Fabrication of Drug-loaded Core-shell Tablets with Adjustable Release Profiles from Surface-erodible and Photocrosslinkable Polyanhydrides , Armin Geraili Nejadfomeshi

Apply dry powder on drug loading and enteric coating of esomeprazole magnesium trihydrate beads and capsules , Xiaojing Ge

Bioluminescence resonance energy transfer (BRET) - based nanostructured biosensor for detection of glucose , Eugene Hwang

A Heterogeneous Patient-Specific Biomechanical Model of the Lung for Tumor Motion Compensation and Effective Lung Radiation Therapy Planning , Parya Jafari

The Co-Delivery of Syngeneic Adipose-Derived Stromal Cells and Macrophages on Decellularized Adipose Tissue Bioscaffolds for In Vivo Soft Tissue Regeneration , Hisham A. Kamoun

Improving Material Mapping in Glenohumeral Finite Element Models: A Multi-Level Evaluation , Nikolas K. Knowles

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Biomedical Science Theses and Dissertations
Biomedical Science Theses and Dissertations . Follow. Theses/Dissertations from 2023 PDF. Gluten Free Diet Ameliorates SI Enteropathy in IGA Deficient Mice, Ryan Albert William Ball. PDF. Aortopathies: Mechanism of Pathogenesis and Therapy, Mengistu G. Gebere. PDF.
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A list of research topics on biomedical science for undergraduate, master, and doctoral students to write dissertations. 44-20-8133-2020. ... Download the Biomedical Science Dissertation Sample For Your Perusal; Research Topic Help Service. Undergrad: £30. Masters: £45. Doctoral: £70.
Biomedical Science Dissertations
Dissertations on Biomedical Science. Biomedical Science focuses on how cells, organs and systems function in the human body and underpins much of modern medicine. Biomedical Science applies parts of natural and/or formal sciences to help develop advances in healthcare. View All Dissertation Examples.
Example Dissertation Titles
The Faculty Board of Biology is responsible for the undergraduate teaching of biological sciences in the Natural Sciences Tripos through the Biological Sciences Committee, for the Medical and Veterinary Sciences Triposes through the MVST Part I Committee and for the Psychology and Behavioural Sciences Tripos through the PBS Management Committee.
Biomedical Engineering Theses and Dissertations
Development and Characterization of Micro/Nano Scale Biomaterials For Biomedical Applications, WUJIE ZHANG. Theses/Dissertations from 2010 PDF. Study of Structural and Physical Properties of Small Molecule and Nanoparticle Inhibitors of Amyloid-B Protein Fibril Formation In Alzheimer'S Disease, Deborah Soto-Ortega
Biological Sciences thesis and dissertation collection
Biological Sciences thesis and dissertation collection. Browse By. By Issue Date Authors Titles Subjects Publication Type Sponsor Supervisors. Search within this Collection: Go The School of Biological Sciences is a world leading research institution and is committed to communicating the relevance of our research to the public, research ...
Biomedical Sciences: Theses and Dissertations
Introduction. Theses and dissertations are documents that present an author's research findings, which are submitted to the University in support of their academic degree. They are very useful to consult when carrying out your own research because they: provide a springboard to scope existing literature. provide inspiration for the finished ...
PDF Graduate School of Biomedical Sciences
Graduate School of Biomedical Sciences University of Massachusetts Medical School Updated 9/4/2012 Page 4 of 23 GSBS_12_doctoral_diss_prep_guide_AY1314 TIMELINE FOR COMPLETION AND GRADUATION FOR BASIC & BIOMEDICAL SCIENCES Action Time Period Extensions Authorization to write and defend Dissertation (BBS)
PDF Guidelines for Biomedical PhD Dissertation
The following recommendations concern the TEXT portion in biomedical sciences PhD dissertations. The content of this memo has been discussed and revised with input from the Graduate Program Directors, Basic Science Chairs and Health Science Librarians at the SOM. This memo includes guidelines concerning. Structure and Style of Dissertation.
Dissertation writing in post graduate medical education
The dissertation requires a detailed title which may include the objective of the study, key words and even the PICOT components. ... Vancouver style for referencing is commonly used in biomedical dissertation writing. A reference list contains details of the works cited in the text of the document. ... Mehta D. Highlight negative results to ...
Biomedical Science BSc: IMDSCI399 Dissertation
IMDSCI399 Dissertation - Biomedical Science BSc - Learning and Teaching at University of Suffolk. Using the Library. Finding Resources. Study Skills. Researchers & Staff. Help & Support. Visit the Library. Study Spaces.
PDF Baylor College of Medicine The Graduate School of Biomedical Sciences
Instructions for Formatting and Submitting the Ph.D. Dissertation . 1. The best guide for formatting your dissertation is a journal to which the work would be submitted for publication. Standard requirements for scientific journals are appropriate for dissertations in the Graduate School of Biomedical Science at Baylor College of Medicine.
PDF Thesis Dissertation Guidelines [FINAL]
The master's thesis and doctoral dissertation are both intended to allow the student to contribute to the theoretical, conceptual, empirical or practice base in translational biomedical science. It is an integrative learning experience that serves as the culmination of all learning and research experiences completed in the program.
Science Dissertation Topics and Titles
IT in Biomedical Science Dissertation Topics. Topic 1: Health care and medicine in the future. Research Aim: This research will look at the development and effects of integrating information technology and biomedicine. All the advantages and disadvantages of introducing information technology into the biomedical sciences will be weighed together.
Brown Digital Repository
A unique embolic protection device to mitigate circulating debris generated during cardiac surgeries. Description: Postoperative cerebral injuries due to debris traveling up the carotid arteries can be a devastating complications of open-heart surgeries. While the benchmark medical device manufacturers …. Year:
Ph.D. and M.S. in Biomedical Sciences (Research Based)
Our thesis and dissertation-based M.S. and Ph.D. programs are focused on providing individualized, competency-based education to equip our graduates with the skills, abilities, and attitudes to pursue diverse careers related to biomedical sciences. During the first year, our students acquire a background in biomedical science, consisting of topics in biochemistry, molecular biology, cell ...
PDF Baylor College of Medicine The Graduate School of Biomedical Sciences
Instructions for Formatting and Submitting the Ph.D. Dissertation 1. The best guide for formatting your dissertation is a journal to which the work would be submitted for publication. Standard requirements for scientific journals are appropriate for dissertations in the Graduate School of Biomedical Science at Baylor College of Medicine.
Biomedical Sciences Theses and Dissertations
Theses/Dissertations from 2011 PDF. Role of Type 2 Cannabinoid Receptor (CB2) in Atherosclerosis., Courtney Denise Netherland. PDF. Biopharmaceutic and Pharmacokinetic Studies of Sucrose Acetate Isobutyrate as an Excipient for Oral Drug Delivery., Martin Ray Tant. Theses/Dissertations from 2010 PDF
Dissertations and final year projects
Dissertations for a number of science undergraduate and taught postgraduate programs are available to view in pdf format from 2014 onwards. To view the outline, layout, citation style and referencing quality of a science eDissertation follow the steps below: Start at the TU Dublin Library Catalogue. From the drop-down search menu choose Subject or Title Search
Edinburgh Medical School thesis and dissertation collection
Edinburgh Medical School is one of two schools at the College of Medicine and Veterinary Medicine at the University of Edinburgh. The Edinburgh Medical School integrates research and teaching across our three Deaneries: Biomedical Sciences, Clinical Sciences and Molecular,Genetic and Population Health Sciences.
PDF Preparing for your Doctoral Dissertation and Graduation
Provide the Morningside Graduate School of Biomedical Sciences office with the Request for Posting of Dissertation Defense (GSBS11) along with an ~250-word research summary. This should be submitted to the office 20 days prior to the defense. The defense notice will be posted 10 days prior to the defense.
Biomedical Engineering Theses and Dissertations
This collection contains theses and dissertations from the Department of Biomedical Engineering, ... Follow. Theses/Dissertations from 2024 PDF. Co-delivery of Adipose-derived Stromal Cells and Endothelial Colony Forming Cells in Novel Cell-assembled Scaffolds as a Pro-angiogenic Cell Therapy Platform, Sarah A. From.
Biomedical Engineering & Biotechnology PhD
Introduction to Biomedical Engineering and Biotechnology. BIOL 625 - Genomics and Biotechnology 3 Credit(s) BIOL 697 - Special Topics in Biology 1-6 Credit(s) Instrumentation and Laboratory Experience; BIOL 899 - Dissertation Research 1-99 Credit(s) Applied Math for Life Sciences or Advanced Numerical Methods
Monther Abu-Remaileh, PhD
Monther Abu-Remaileh, PhD. The ChEM-H Institute scholar and assistant professor of chemical engineering and genetics has been awarded the R.R. Bensley Award in Cell Biology by the American Association for Anatomy. Abu-Remaileh is being recognized as an early-stage investigator who has made important contributions to biomedical science through ...
Dissertation Defense
About this Event. ND5.218. Add to calendar. Sheng Qing Lin, B.S. Biomedical Engineering Graduate Program. Title: "Efficient Fat/Water Separated MRI: Applications in Musculoskeletal Imaging and Whole-Body Imaging in Multiple Myeloma". Mentor: Ananth Madhuranthakam, Ph.D.

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Example Dissertation Titles

Major subjects

Pharmacology

Plant Sciences

Physiology, Development and Neuroscience

Psychology, Neuroscience and Behaviour

Minor subjects

Development and Psychopathology

Health, Medicine and Society

Human Ecology and Behaviour

Neural Degeneration and Regeneration

Philosophy and Ethics of Medicine

Psychology and Social Issues

Information contacts

Biomedical Engineering Theses and Dissertations

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Biomedical Sciences: Theses and Dissertations

Introduction

Definitions

Theses and dissertations

Help with theses and dissertations

Plagiarism checking tools

Depositing your thesis

Quick access to research & writing guides

Dissertation writing in post graduate medical education

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Thrivikrama Padur Tantry

Associated Data

INTRODUCTION

Framing the research question (RQ)

Review of literature

Aim and the objectives

Inclusion and exclusions

Ethical considerations

Clinical trial registration

Randomisation

Allocation concealment

Commonly used terms for blinding are

Statistical analysis

Role of a statistician in dissertation and data analysis

Graphical images

What to do when we get a negative result?

Publishing the dissertation work

Abstract and Summary

References/bibliography