dissertation topics in life sciences

251+ Life Science Research Topics [Updated]

Life science research is like peering into the intricate workings of the universe, but instead of stars and galaxies, it delves into the mysteries of life itself. From unraveling the secrets of our genetic code to understanding ecosystems and everything in between, life science research encompasses a vast array of fascinating topics. In this blog post, we’ll embark on a journey through some of the most captivating life science research topics within the realm of life science research.

What is research in life science?

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Research in life science involves the systematic investigation and study of living organisms, their interactions, and their environments. It encompasses a wide range of disciplines, including biology, genetics, ecology, microbiology, neuroscience, and more.

Life science research aims to expand our understanding of the fundamental principles governing life processes, uncover new insights into biological systems, develop innovative technologies and therapies, and address pressing challenges in areas such as healthcare, agriculture, and conservation.

251+ Life Science Research Topics: Category Wise

Genetics and genomics.

Genetic basis of inherited diseases
Genome-wide association studies
Epigenetics and gene regulation
Evolutionary genomics
CRISPR/Cas9 gene editing technology
Pharmacogenomics and personalized medicine
Population genetics
Functional genomics
Comparative genomics across species
Genetic diversity and conservation

Biotechnology and Bioengineering

Biopharmaceutical production
Metabolic engineering for biofuel production
Synthetic biology applications
Bioremediation techniques
Nanotechnology in drug delivery
Tissue engineering and regenerative medicine
Biosensors for environmental monitoring
Bioprocessing optimization
Biodegradable plastics and sustainable materials
Agricultural biotechnology for crop improvement

Ecology and Environmental Biology

Biodiversity hotspots and conservation strategies
Ecosystem services and human well-being
Climate change impacts on ecosystems
Restoration ecology techniques
Urban ecology and biodiversity
Marine biology and coral reef conservation
Habitat fragmentation and species extinction
Ecological modeling and forecasting
Wildlife conservation genetics
Microbial ecology in natural environments

Neuroscience and Cognitive Science

Brain mapping techniques (fMRI, EEG, etc.)
Neuroplasticity and learning
Neural circuitry underlying behavior
Neurodegenerative diseases (Alzheimer’s, Parkinson’s, etc.)
Neural engineering for prosthetics
Consciousness and the mind-body problem
Psychiatric genetics and mental health disorders
Neuroimaging in psychiatric research
Developmental cognitive neuroscience
Neural correlates of consciousness

Evolutionary Biology

Mechanisms of speciation
Molecular evolution and phylogenetics
Coevolutionary dynamics
Evolution of antibiotic resistance
Cultural evolution and human behavior
Evolutionary consequences of climate change
Evolutionary game theory
Evolutionary medicine and infectious diseases
Evolutionary psychology and human cognition
Paleogenomics and ancient DNA analysis

Cell Biology and Physiology

Cell cycle regulation and cancer biology
Stem cell biology and regenerative medicine
Organelle dynamics and intracellular transport
Cellular senescence and aging
Ion channels and neuronal excitability
Metabolic pathways and cellular energetics
Cell signaling pathways in development and disease
Autophagy and cellular homeostasis
Mitochondrial function and disease
Cell adhesion and migration in development and cancer

Microbiology and Immunology

Microbiome composition and function
Antibiotic resistance mechanisms
Host-microbe interactions in health and disease
Viral pathogenesis and vaccine development
Microbial biotechnology for waste treatment
Immunotherapy approaches for cancer treatment
Microbial diversity in extreme environments
Antimicrobial peptides and drug discovery
Microbial biofilms and chronic infections
Host immune responses to viral infections

Biomedical Research and Clinical Trials

Translational research in oncology
Precision medicine approaches
Clinical trials for gene therapies
Biomarker discovery for disease diagnosis
Stem cell-based therapies for regenerative medicine
Pharmacokinetics and drug metabolism studies
Clinical trials for neurodegenerative diseases
Vaccine efficacy trials
Patient-reported outcomes in clinical research
Health disparities and clinical trial participation

Emerging Technologies and Innovations

Single-cell omics technologies
3D bioprinting for tissue engineering
CRISPR-based diagnostics
Artificial intelligence applications in life sciences
Organs-on-chip for drug screening
Wearable biosensors for health monitoring
Nanomedicine for targeted drug delivery
Optogenetics for neuronal manipulation
Quantum biology and biological systems
Augmented reality in medical education

Ethical, Legal, and Social Implications (ELSI) in Life Sciences

Privacy concerns in genomic research
Ethical considerations in gene editing technologies
Access to healthcare and genetic testing
Intellectual property rights in biotechnology
Informed consent in clinical trials
Animal welfare in research
Equity in environmental decision-making
Data sharing and reproducibility in science
Dual-use research and biosecurity
Cultural perspectives on biomedicine and genetics

Public Health and Epidemiology

Disease surveillance and outbreak investigation
Global health disparities and access to healthcare
Environmental factors in disease transmission
Health impacts of climate change
Social determinants of health
Infectious disease modeling and forecasting
Vaccination strategies and herd immunity
Epidemiology of chronic diseases
Mental health epidemiology
Occupational health and safety

Plant Biology and Agriculture

Crop domestication and evolution
Plant-microbe interactions in agriculture
Genetic engineering for crop improvement
Plant hormone signaling pathways
Abiotic stress tolerance mechanisms in plants
Soil microbiology and nutrient cycling
Agroecology and sustainable farming practices
Plant secondary metabolites and natural products
Plant developmental biology
Plant epigenetics and environmental adaptation

Bioinformatics and Computational Biology

Genome assembly and annotation algorithms
Phylogenetic tree reconstruction methods
Metagenomic data analysis pipelines
Machine learning approaches for biomarker discovery
Structural bioinformatics and protein modeling
Systems biology and network analysis
Transcriptomic data analysis tools
Population genetics simulation software
Evolutionary algorithms in bioinformatics
Cloud computing in life sciences research

Toxicology and Environmental Health

Mechanisms of chemical toxicity
Risk assessment methodologies
Environmental fate and transport of pollutants
Endocrine disruptors and reproductive health
Nanotoxicology and nanomaterial safety
Biomonitoring of environmental contaminants
Ecotoxicology and wildlife health
Air pollution exposure and respiratory health
Water quality and aquatic ecosystems
Environmental justice and health disparities

Aquatic Biology and Oceanography

Marine biodiversity conservation strategies
Ocean acidification impacts on marine life
Coral reef resilience and restoration
Fisheries management and sustainable harvesting
Deep-sea biodiversity and exploration
Harmful algal blooms and ecosystem health
Marine mammal conservation efforts
Microplastics pollution in aquatic environments
Ocean circulation and climate regulation
Aquaculture and mariculture technologies

Social and Behavioral Sciences in Health

Health behavior change interventions
Social determinants of health disparities
Health communication strategies
Community-based participatory research
Patient-centered care approaches
Cultural competence in healthcare delivery
Health literacy interventions
Stigma reduction efforts in public health
Health policy analysis and advocacy
Digital health technologies for behavior monitoring

Bioethics and Biomedical Ethics

Ethical considerations in human subjects research
Research ethics in vulnerable populations
Privacy and data protection in healthcare
Professional integrity and scientific misconduct
Ethical implications of genetic testing
Access to healthcare and health equity
End-of-life care and euthanasia debates
Reproductive ethics and assisted reproduction
Ethical challenges in emerging biotechnologies

Forensic Science and Criminalistics

DNA fingerprinting techniques
Forensic entomology and time of death estimation
Trace evidence analysis methods
Digital forensics in criminal investigations
Ballistics and firearm identification
Forensic anthropology and human identification
Bloodstain pattern analysis
Arson investigation techniques
Forensic toxicology and drug analysis
Forensic psychology and criminal profiling

Nutrition and Dietary Science

Nutritional epidemiology studies
Diet and chronic disease risk
Functional foods and nutraceuticals
Macronutrient metabolism pathways
Micronutrient deficiencies and supplementation
Gut microbiota and metabolic health
Dietary interventions for weight management
Food safety and risk assessment
Sustainable diets and environmental impact
Cultural influences on dietary habits

Entomology and Insect Biology

Insect behavior and communication
Insecticide resistance mechanisms
Pollinator decline and conservation efforts
Medical entomology and vector-borne diseases
Invasive species management strategies
Insect biodiversity in urban environments
Agricultural pest management techniques
Insect physiology and biochemistry
Social insects and eusociality
Insect symbiosis and microbial interactions

Zoology and Animal Biology

Animal behavior and cognition
Conservation genetics of endangered species
Reproductive biology and breeding programs
Wildlife forensics and illegal wildlife trade
Comparative anatomy and evolutionary biology
Animal welfare and ethics in research
Physiological adaptations to extreme environments
Zoological taxonomy and species discovery
Animal communication and signaling
Human-wildlife conflict mitigation strategies

Biochemistry and Molecular Biology

Protein folding and misfolding diseases
Enzyme kinetics and catalytic mechanisms
Metabolic regulation in health and disease
Signal transduction pathways
DNA repair mechanisms and genome stability
RNA biology and post-transcriptional regulation
Lipid metabolism and membrane biophysics
Molecular interactions in drug design
Bioenergetics and cellular respiration
Structural biology and X-ray crystallography

Cancer Biology and Oncology

Tumor microenvironment and metastasis
Cancer stem cells and therapy resistance
Angiogenesis and tumor vasculature
Immune checkpoint inhibitors in cancer therapy
Liquid biopsy techniques for cancer detection
Oncogenic signaling pathways
Personalized medicine approaches in oncology
Radiation therapy and tumor targeting strategies
Cancer genomics and precision oncology
Cancer prevention and lifestyle interventions

Developmental Biology and Embryology

Embryonic stem cell differentiation
Morphogen gradients and tissue patterning
Developmental genetics and model organisms
Regenerative potential in vertebrates and invertebrates
Developmental plasticity and environmental cues
Embryo implantation and pregnancy disorders
Germ cell development and fertility preservation
Cell fate determination in development
Evolutionary developmental biology (evo-devo)
Organogenesis and tissue morphogenesis

Pharmacology and Drug Discovery

Drug-target interactions and pharmacokinetics
High-throughput screening techniques
Structure-activity relationship studies
Drug repurposing strategies
Natural product drug discovery
Drug delivery systems and nanomedicine
Pharmacovigilance and drug safety monitoring
Pharmacoeconomics and healthcare outcomes
Drug metabolism and drug-drug interactions

Stem Cell Research

Induced pluripotent stem cells (iPSCs) technology
Stem cell therapy applications in regenerative medicine
Stem cell niche and microenvironment
Stem cell banking and cryopreservation
Stem cell-based disease modeling

What Are The 10 Examples of Life Science Research Paper Titles?

Investigating the Role of Gut Microbiota in Neurological Disorders: Implications for Therapeutic Interventions.
Genome-Wide Association Study Identifies Novel Genetic Markers for Cardiovascular Disease Risk.
Understanding the Molecular Mechanisms of Cancer Metastasis: Insights from Cellular Signaling Pathways.
The Impact of Climate Change on Plant-Pollinator Interactions: Implications for Biodiversity Conservation.
Exploring the Potential of CRISPR/Cas9 Gene Editing Technology in Treating Genetic Disorders.
Characterizing the Microbial Diversity of Extreme Environments: Insights from Deep-Sea Hydrothermal Vents.
Assessment of Novel Drug Delivery Systems for Targeted Cancer Therapy: A Preclinical Study.
Unraveling the Neurobiology of Addiction: Implications for Treatment Strategies.
Investigating the Role of Epigenetics in Age-Related Diseases: From Mechanisms to Therapeutic Targets.
Evaluating the Efficacy of Herbal Remedies in Traditional Medicine: A Systematic Review and Meta-Analysis.

Life science research is a journey of discovery, filled with wonder, excitement, and the occasional setback. Yet, through perseverance and ingenuity, researchers continue to push the boundaries of knowledge, unlocking the secrets of life itself. As we stand on the cusp of a new era of scientific discovery, one thing is clear: the future of life science research is brighter—and more promising—than ever before. I hope these life science research topics will help you to find the best topics for you.

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201+ Life Science Research Topics & Ideas For Students

Life science encompasses many fascinating subject areas ripe for research exploration. Studying living organisms and systems requires dedication across many disciplines. In a life science research project, you could investigate anything from antibiotic resistance in bacteria to neural pathways in the brain.

The diversity of topics allows you to pursue your interests within this broad field. In this blog, we will discuss some life science research topics and ideas for student projects or professional research.

Whether you are looking to advance knowledge on genetic engineering, better understand environmental impacts on ecosystems, or study new cancer treatments, exciting research awaits.

Read on for an overview of some of life sciences’ most dynamic areas of study. With involvement in life science research, your discoveries could one day shape the future of medicine, agriculture, the environment, and more. So, dive in to learn life science research topics!

Why Choose Life Science Research?

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Life science research lets you discover new things about living organisms and systems. Studying life at the molecular, cellular, organismal, or ecological levels lets you understand how life works, evolves, and interacts.

Life science research is very hands-on, letting you design experiments, collect data, and analyze results. Choosing a life science research project means focusing on a topic that excites your curiosity.

From microbiology to neuroscience to marine biology, you can pick an area that aligns with your interests and passions. Conducting primary research also allows you to experience the scientific process firsthand by coming up with hypotheses, troubleshooting problems, and conclusions.

Life science research develops valuable skills like critical thinking, patience, communication, and teamwork. It looks great on college applications and resumes, showing your ability to think scientifically.

Participating in life science research also opens doors to meeting and networking with working scientists. And your findings may just contribute new insights and knowledge to help advance the field. Research is rewarding because it enables you to grow your skills and understanding of the world.

What Topics Are Studied In Life Science?

Life science is the study of living organisms and their processes. Some leading topics studied in life science include:

microbiology

Biology examines living things’ structure, function, growth, origin, evolution, and distribution. Anatomy looks at the structure & organization of organisms. Physiology studies how living things function. It also studies the physical and chemical processes that occur in organisms.

Zoology focuses on animals’ classification, habits, structure, embryology, and distribution. Microbiology studies microscopic organisms like bacteria, viruses, and fungi. Ecology analyzes how organisms interact with each other & their environments.

Genetics analyzes how DNA and genes pass traits from parents to offspring. Life science aims to understand all aspects of living organisms at all levels. It ranges from microscopic molecules to global ecosystems.

Life Science Research Topics

Here is a list of 201+ life science research topics for students, categorized into different subfields of life sciences:

Ecology and Environmental Science Research Topics

Impact of climate change on biodiversity
Ecological consequences of deforestation
Effects of pollution on aquatic ecosystems
Conservation strategies for endangered species
Role of microbes in soil health
Urban ecology and its impact on wildlife
Restoration ecology: Rehabilitating damaged ecosystems
The Role of fungi in nutrient cycling
Effects of invasive species on local ecosystems
Sustainable agriculture practices for soil conservation

Genetics and Molecular Biology Research Topics

CRISPR technology and its ethical implications
Genetic basis of cancer susceptibility
Epigenetics and its Role in Development
Gene therapy for genetic disorders
Genetic markers for disease susceptibility
Molecular basis of neurodegenerative diseases
Regulation of gene expression in prokaryotes
Mitochondrial DNA and human evolution
Role of microRNAs in gene regulation
Genetic diversity in populations and its significance

Cell Biology Research Topics

Stem cell therapy and regenerative medicine
Cell signaling pathways in cancer
Organelle dynamics in cell division
Cellular mechanisms of aging
Autophagy and its Role in cellular homeostasis
Role of cell adhesion in tissue development
Cell cycle regulation and cancer
Cytoskeleton dynamics in cell movement
Cell death mechanisms: apoptosis vs. necrosis
Cellular response to environmental stress

Physiology and Anatomy Research Topics

Regulation of blood pressure in humans
Endocrine system and hormone regulation
Neural control of muscle contraction
Cardiovascular adaptations to exercise
Respiratory adaptations to high altitudes
Digestive system disorders and treatments
Role of the microbiome in human health
Reproductive physiology and fertility treatments
Comparative anatomy of vertebrates
Sensory systems and perception

Microbiology Research Topics

Antibiotic resistance in bacteria
Microbial communities in the human gut
Role of viruses in human diseases
Microbial biofilms and their impact
Microbial ecology of extreme environments
Bioremediation using microbial communities
Probiotics and their impact on health
Bacterial quorum sensing and communication
Archaea: Unusual microbes in extreme environments
Viral evolution and emerging diseases

Immunology Research Topics

Vaccination strategies and development
Autoimmune diseases and their mechanisms
Immune response to viral infections
Immunotherapy for cancer treatment
Role of inflammation in disease
Allergies: Mechanisms and treatments
Immune system and aging
Innate vs. adaptive immunity
Immunogenetics and susceptibility to infections
Microbiota and immune system interactions

Biotechnology and Bioengineering Research Topics

CRISPR applications beyond gene editing
Bioprocessing for the production of biofuels
Synthetic biology and its applications
Bioreactor design for tissue engineering
Nanotechnology in drug delivery
Biopharmaceutical production and regulation
Genetically modified organisms in agriculture
Biosensors for environmental monitoring
3D printing in tissue engineering
Biodegradable materials in medical devices

Evolutionary Biology Research Topics

Evolutionary mechanisms of speciation
Evolutionary consequences of sexual selection
Evolution of antibiotic resistance in bacteria
Evolutionary basis of social behaviors
Evolutionary genomics and comparative genomics
Human evolution: Fossils and molecular evidence
Evolutionary ecology and adaptation
Evolution of developmental processes
Evolutionary consequences of hybridization
Coevolution of hosts and parasites

Neuroscience Research Topics

Neuroplasticity and Learning
Neurotransmitters and their Role in Behavior
Brain-computer interfaces
Neurobiology of addiction
Neural circuits underlying memory
Sleep disorders and their neurobiology
Neurodegenerative diseases: Alzheimer’s, Parkinson’s, etc.
Developmental neurobiology
Neuroimmunology: Interaction of the nervous and immune systems
Neural basis of consciousness

Bioinformatics and Computational Biology Research Topics

Genomic data analysis: Challenges and approaches
Protein structure prediction algorithms
Comparative genomics and phylogenetics
Systems biology and network analysis
Machine learning in bioinformatics
Metagenomics: Analyzing microbial communities
Structural bioinformatics: Drug design and discovery
Personalized medicine and genomics
Significant data challenges in life sciences
Bioinformatics tools for functional genomics

Plant Biology Research Topics

Plant-microbe interactions in the rhizosphere
Photosynthesis: Mechanisms and efficiency
Plant defense mechanisms against herbivores
Genetic modification for crop improvement
Plant hormone signaling pathways
Adaptations of plants to extreme environments
Seed germination and dormancy
Plant ecology and community dynamics
Plant breeding for disease resistance
Role of mycorrhizal fungi in plant nutrition

Biomedical Engineering Research Topics

Biomaterials for medical implants
Medical imaging technologies
Wearable health monitoring devices
Tissue engineering for organ transplantation
Drug delivery systems and nanomedicine
Bioinformatics in personalized medicine
Biomechanics and artificial organs
Rehabilitation engineering for people with disabilities
3D printing in customized healthcare
Bio-inspired design in engineering

Cancer Biology Research Topics

Tumor microenvironment and cancer progression
Cancer stem cells & their Role in tumorigenesis
Metastasis: Mechanisms and prevention
Angiogenesis and its Role in Cancer
Oncogenes and tumor suppressor genes
Circulating tumor cells as biomarkers
Radiation therapy and its results on cancer cells
Targeted therapies for specific cancer types
Epigenetic modifications in cancer cells

Biogeography Research Topics

Island biogeography and species diversity
Historical biogeography and continental drift
Biogeography of invasive species
Ecological biogeography and community assembly
Phylogeography: Studying genetic variation across populations
Climate change and its impact on biogeography
Conservation biogeography: Prioritizing areas for protection
Biogeography of extremophiles
Biogeography of plant and animal migration
Biogeography of freshwater ecosystems

Marine Biology Research Topics

Coral reef ecology and conservation
Deep-sea ecosystems: Biodiversity and adaptations
Marine Microbiology and biogeochemical cycles
Marine pollution and its impact on ecosystems
Fisheries management and sustainable harvesting
Ocean acidification & its impacts on aquatic life
Marine mammal behavior and communication
Bioluminescence in marine organisms
Estuarine ecology and nutrient cycling
Marine protected areas: Successes and challenges

Behavioral Ecology Research Topics

Evolution of mating systems in animals
Social behavior in insects
Parental care strategies in birds
Foraging behavior in predators and prey
Communication in animal societies
Territoriality and competition for resources
Evolution of cooperation and altruism
Behavioral ecology of urban wildlife
Animal cognition and problem-solving
Migration patterns and navigation in animals

Biophysics Research Topics

Protein folding and misfolding
Biophysical techniques in structural biology
Mechanotransduction in cells
Ion channels and membrane transport
Molecular dynamics simulations in biophysics
Optical tweezers in single-molecule studies
Biophysics of cell motility
Bioelectromagnetics and its biological effects
Biophysical basis of sensory perception
Biophysics of neural signaling

Aquatic Biology Research Topics

Freshwater ecology and conservation
Hydrothermal vent ecosystems
Limnology: Study of lakes and ponds
Algal blooms: Causes and consequences
Stream ecology and river ecosystems
Wetland ecology and restoration
Aquatic invasive species management
Microbial communities in aquatic environments
Estuarine and coastal ecosystems
Fish migration and spawning behavior

Ethnobotany Research Topics

Traditional medicinal plants and their uses
Ethnobotanical knowledge of indigenous communities
Cultural significance of plant species
Sustainable harvesting of medicinal plants
Ethnobotany in conservation and biodiversity
Plant-based rituals and ceremonies
Edible plants in traditional diets
Ethnobotanical contributions to modern medicine
Sacred Groves and their Role in Biodiversity
Traditional ecological knowledge and resource management

Zoology Research Topics

Evolution of animal locomotion
Animal communication and signaling
Animal cognition and intelligence
Insect pollination and plant reproduction
Evolution of animal coloration and camouflage
Behavioral adaptations in nocturnal animals
Symbiotic relationships in the animal kingdom
Endangered species conservation
Urban ecology and wildlife interactions
Parasite-host interactions in the animal kingdom

Tips for Choosing a Life Science Research Paper Topic

Here are some simple tips for choosing a good life science research paper topic:

Choose a specific focus area that interests you. Options include cellular biology, microbiology, botany, zoology, ecology, and neuroscience. Narrowing your focus will make researching and writing more accessible.
Make sure there are enough resources and information available on the topic. This will support a full research paper. Look for subjects with enough primary literature.
Consider current issues, controversies, or recent discoveries to find relevant and engaging topics. These often make good paper topics.
Look for gaps in current research that your paper could help fill. A paper that explores new angles on a topic can be fascinating. It can also be fascinating to read a paper that answers unresolved questions.
Avoid topics that are too broad or have been covered unless you can put a unique spin on them. Go for more focused, detailed issues.
Ensure you understand your chosen topic’s key concepts, terminology, and background information. If not, you may struggle to grasp the research.
Bounce ideas on your professor or classmates to get feedback. Fine-tune your topic before committing to one for your paper.
Pick a fascinating topic, not the first idea that comes to mind. Your enthusiasm and interest will show in your writing.

Final Remarks

In this blog, we have discussed the life science research topics. The diversity of life science allows for a vast array of research topics that can meet any curiosity. The living world offers endless opportunities for discovery. It ranges from the smallest microscopic organisms to intricate global ecosystems.

Choosing a compelling research topic is an exciting first step. You investigate your interests and contribute insights that advance the field. You can study genetic engineering, neural pathways, plant ecology, or another life science field. Following your passions will lead to meaningful research.

Use the ideas presented in this blog as inspiration to find a topic that speaks to you. Immerse yourself in the literature. Develop focused research questions. Carry out a thoughtful process.

Your findings could clarify biology, improve lives, or protect the environment. Life science research develops skills and deepens the understanding of the world. I hope you liked this post about life science research topics.

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August of 2017

Novel Cell Surface Anchoring Mechanism of Prokaryotic Secreted Protein - Mohd Farid Abdul Halim, Ph.D.

The Genetic Architecture Underlying Rapid Seasonal Evolution in Natural Populations of Drosophila melanogaster - Emily Behrman, Ph.D.

Developmental Functions of MIR156 and MIR157 in Arabidopsis - Jia He, Ph.D.

Dedifferentiation of Cytotoxic Lympthocyte into Central Memory CD8+T Cells: Lessons from Antiviral T-Stem Cells on the Architecture of Aging and Immunotherapy - Jonathan Johnnidis, Ph.D.

Class of 2017

Proteolytic Activation by ADAMTS3 Defines Distinct Mechanisms of Lymphangiogenesis Mediated by VEGFC and VEGFD - Hung Bui, Ph.D.

Transcript Diversity in the Protozoan Parasite Toxoplasma Gondii - Maria Diaz, Ph.D.

Plant-soil Feedback and Succession in Heavy Metal Soils - Lee Dietterich, Ph.D.

Genome Editing Approach to Uncover Microtubule-Actin Crosslinking Factor (MACF1) Essential Domains in Establishing Oocyte Polarity and Nuclear Positioning - Matias Escobar, Ph.D.

Investigation of the Spatiotemporal Dynamics of cAMP and PKA Signaling and the Role of HCN4 Subunits in Anxiety-Related Behavior and Memory - Vincent Luczak, Ph.D.

The C-REL Transcription Factor Controls Metabolism and Proliferation of Human T Cells - George Luo, Ph.D.

Space, Time and Change: Investigations in Soil Bacterial Diversity in the Montane Steppe of Mongalia - Aurora MacRae-Crerar, Ph.D .

Population Genetics of Borrelia Burgdorferi in the Eastern and Midwestern United States - Stephanie Seifert, Ph.D.

Hypermutability in Asexuals: Investigating the Effects of Deleterious Mutations - Tanya Singh, Ph.D.

Class of 2016

Molecular and Cellular Approaches Toward Understanding Dynein-Driven Motility - Swathi Ayloo, Ph.D.

Cell Biology of Cheating - Mechanisms of Chromosomes Segregation during Female Meiosis - Lukas Chmatal, Ph.D.

Detecting Selection on Noncoding Nucleotide Variations: Methods and Applications - Yang Ding, Ph.D.

Short Term Adult Plasticity in Drosophila melanogaster and its Role in Climatic A daptation - Vinayak Mathur. Ph.D.

A Study of the Role of Gata6 in Definitive Endoderm Specification and β Cell Functionality by Genome Engineering of the Pluripotent Stem Cells - Amita Tiyaboonchai, Ph.D.

Phenotypic Variation in the Dogwhelk, Nucella lapillus: an Integration of Ecology, Karyotype and Phenotypic Plasticity - Katie Vazquez, Ph.D.

Genomic, Evolutionary and Functional Analyses of Diapause in Drosophila melanogster - Xiaqing Zhao, Ph.D.

Selective Forces that Shape the VLS Antigenic Variation System in Borrelia Burgdorferi - Wei Zhou, Ph.D.

Class of 2015

A Role of SWI/SNF Complex in ABA-dependent Drought Responsive Gene Expression in Arabidopsis thaliana - Soon Ki Han, Ph.D.

Mechanisms Underlying the Role of Drosophila TIMELESS in the Molecular Cl ock and in the Circadian Response to Light - A Reum Jang, Ph.D.

The Genetic Basis of Phenotypic Plasticity in Natural Populations of Drosophila - Katherine O'Brien, Ph.D.

Spatial and Temporal Variation in Wild Pollination Services in the Mongolian Steppe - Dan Song, Ph.D.

Promoting T-snare Binary Complex Assembly and Membrane Fusion by the Exocyst Protein Sec3 - Peng Yue, Ph.D.

Novel Regulators in the Germline Stem Cell Niche of Drosophila Testis - Qi Zheng, Ph.D.

Class of 2014

Change and Impact of microRNA Modification with Age in Drosophila melanogaster - Masashi Abe, Ph.D.

Mitotic Kinases in Meiosis - Olga Davydenko, Ph.D.

Higher-Order Chromatin Organization in Hematopoietic Transcription - Wulan Deng, Ph.D.

Effects of Temperature on Global Gene Expression in Natural Strains of Budding Yeast - Hoa Giang, Ph.D.

Regulators of Mouse and Human Beta Cell Proliferation - Yang Jiao, Ph.D.

Trial-by-Trial Coding of Instructive Signals in the Cerebellum: Insights from Eyeblink Conditioning in Mice - Farzaneh Najafi, Ph.D.

The Molecular Mechanism of Synaptic Tagging and Capture - Jung Whan Park, Ph.D.

Dynamics and Fate of the Inner Membrane complex in Toxoplasma gondii - Dinkorma Toure Ouologuem, Ph.D.

Regulation of Adipose Tissue Development and Function by Nuclear Receptors PPARg and Rev-erba - Fenfen Wang, Ph.D.

Towards a Better Understanding of Nonstructural Carbohydrate Storage and Carbon Limitation in Trees - Erin Wiley, Ph.D.

Exo70 Generates Membrane Curvature for Morphogenesis and Cell Migration - Yuting Zhao, Ph.D.

Class of 2013

Higher-order Chromatin Organization in Hematopoietic Transcription - Wulan Deng, Ph.D.

Multiscale Analyses of the Population Structure of Triatoma infestans in an Urban Area - Erica Foley, Ph.D.

The Impact of Terrestrial Dissolved Organic Carbon on Stream Ecosystem Function through an Investigation of Hydrologic Sources in White Clay Creek, PA - Christine McLaughlin, Ph.D.

Biology of Respiratory and Cardiac Functional Deterioration in a Translational Model for Duchenne Muscular Dystrophy - Andrew Mead, Ph.D.

Species-Specific Effects on the Oxygen Isotope Ratio of Tree-Ring Cellulose - Xin Song, Ph.D.

The interplay between Lewy body-like alpha-synuclein aggregates and protein degradation pathways in a cell-based model of Parkinson’s disease - Selcuk Tanik, Ph.D.

Structure and Function of H. volcanii flagella - Manuela Tripepi, Ph.D.

Class of 2012

Investigation of the Methane Cycle and Associated Microbial Community of a Pine Forest Soil - Emma Aronson, Ph.D.

A Role for Late Meristem Identity2 in the Reproductive Development of Arabidopsis - Jennifer Pastore, Ph.D.

The Molecular Mechanism of Vegetation Phase Change: Regulation of miR156 Expression and Action - Li Yang, Ph.D.

Meiotic Origins of Maternal Age-Related Aneuploidy - Teresa Chiang, Ph.D.

Decoding Cytochrome C Oxidase Biogenesis: New Insights into Copper Trafficking - Nursel Ekici, Ph.D.

Evolution of Molecular Function in Mammalian Neurons - Chantal Francis, Ph.D.

The Cytoskeletal Mechanisms of Cell-Cell Junction Formation in Endothelial Cells - Matthew Hoelzle, Ph.D.

Microrna Precursor Programmed Silencing Complex Assembly and Regulatory Pathways in Mammals - Xuhang Liu, Ph.D.

The Role of EPAC Signaling in Memory Consolidation and Sleep Deprivation - Nan Ma, Ph.D.

Behavior and Socioendocrinology of Adult and Male Rhesus Macaques of Cayo Santiago - Maria Rakhovskaya, Ph.D.

Molecular Insight into Mechanisms of CAG-Repeat RNA Toxicity in Polyglutamine Disease from Drosophila - Shin-Yi Shieh, Ph.D.

The Evolution of a High Mutation Rate and Declining Fitness in Asexual Populations - Christopher Gentile Ph.D.

Selection on Mutators in Experimental Saccharomyces Cerevisiae Populations: Recombination, Clonal Interference, and the Evolution of Mutation Rates - Yevgeniy Raynes, Ph.D.

Class of 2011

Socioecology, Acoustic Communication and Demography of Asian Elephants in Sri Lanka - Shermin deSilva, Ph.D.

The Role of Exocyst in Exocytosis and Cell Migration - Jianglan Liu, Ph.D.

YY1 Controls Immunoglobulin Class Switch Recombination and Nuclear Aid Levels - Kristina Zaprazna, Ph.D.

Mechanisms of HDAC2 Function in the Regulation of Adult Cardiac Hypertrophy and Embryonic Myocyte Proliferation - Wenting Zhu, Ph.D.

Actin-Independent Mechanisms of Targeting Formin mDIA2 to the Plasma Membrane - Roman Gorelik, Ph.D.

Roles of Protein Factors in Regulation of Imprinted Gene Expression - Shu Lin, Ph.D.

Functional Plasticity of Hippocampal Glutamatergic Synapses in Development and Disease - Xiaoyu Peng, Ph.D.

Physiological Bases of Plant Shrinkage and its Demographic Implications - Roberto Salguero-Gomez, Ph.D.

Class of 2010

Unplugged/Musk Signaling Coordinates Pre- and Post-synaptic Development at the Neuromuscular Junction - Lili Jing, PhD

Spatially Varying Selection on Shell Color Phenotype in the Flat Periwinkle Littorina Obtusata - Megan Phifer-Rixey, PhD

Niche Partitioning Among Arbuscular Mycorrhizal Fungi and Consequences for Host Plant Performance - Jennifer H. Doherty, PhD

Microrna Pathways Modulate Aging and Neurodegenerative Diseases - Nan Liu, PhD

The Rab3A Locus: Studies of Neuronal Expression and Effects on Behavior - Rui Liu, PhD

The Evolutionary Genetics of Life History in Drosophila Melanogaster - Annalise Bloss Paaby, PhD

Using Evolutionary Genomics to Elucidate Parasite Biology and Host-Pathogen Interactions - Lucia Peixoto, PhD

Class of 2009

Characterizing the Role of the Exocyst Component EX070 in Exocytosis and Actin Dynamics in Budding Yeast Saccharomyces Cerevisiae - Bing He, PhD

Slit Down-Regulates CRGAP Function to Mediate Axon Repulsion in the Embryonic Drosphila CNS - Ming Li, PhD

Molecular Basis of Chve Function in Sugar Binding and Virulence in Agrobacterium Tumefaciens - Fanglian He, PhD

Spatial and Temporal Variation in Streambed Bacterial Community Composition and Correlation with Einvironmental Variables and Disturbance - Karen Rowley Hogan, PhD

Squint, The Arabidopsis Ortholog of Cyclophilin40, Affects RNA Silencing - Michael Smith, PhD

Spatial Regulation of CDC42 by its GTPase-Activating Proteins RGA1 and BEM2 in Budding Yeast Saccharomyces Cerevisiae - Zongtian Tong, PhD

Class of 2008

Molecular and Cellular Mechanism of Axon Guidance During Visual System Development in Zebrafis h - Michael Gyda, PhD

Phylogeny and Evolution of Prokaryotic Genomes - Fan Ge, PhD

The Role of the Exocyst Complex in Polarized Exocytosis - Puyue Wang, PhD

Evolutionary Ecology of Host Plant Use by an Insect Herbivore in a Highly Seasonal Neotropical Dry Forest - Salvatore Agosta, PhD

Variation Among Dogwhelks (Nucella lapillus) Modifies Predator-prey Interactions within Intertidal Assemblages - Jonathan Fisher, PhD

Peeking into the Black Box: The Structure and Function of Soil Microbial Communities in Response to Increasing Nitrogen Availability - Richard Lucas, PhD

Taxonomic and Functional Diversity of AM Fungi in Serpentine and Prairie Grasslands - Baoming Ji, PhD

Dissecting Different Modules of Cytochrome C Maturation in Rhodobacter Capsulatu s - Serdar Turkarslan, PhD

Role of Exocytosis in Cell Polarization - Xiaoli Sun, PhD

Class of 2007

The Analysis of the PI3K/AKT Pathway in Human Ovarian Cancer with a Combination of Genomic and Genetic Appoaches - Jia Huang, PhD

Examination of the Twin-Arginine Translocation Pathway in Bacteria and Archaea - Kieran Dilks, PhD

Spatial Orientation in Columbian Ground Squirrels (Spermophilus Columbianus) - Anna Vlasak, PhD

From Protein to RNA: Study of SCA3 Polyglutamine Disease in Drosophila - Lingbo Li, PhD

Novel Insignts Into Vir Gene Regulation in Agrobacterium Tumefaciens - Gauri Nair, PhD

Spatial and Genetic Patterns of Crane Flies (Diptera: Tipuloidea) from Lake Hovsgol Region, Mongolia - Bazartseren Boldgiv, PhD

Aging in Plants at Multiple Scales - Lori Spindler, PhD

Metabolic Pool, Metabolic Rates and Diapause in Drosophila Melanogster - Christine Wills, PhD

Phylogenetics and Diversification of the Neotropical Serrasalminae (Ostariophysi: Characiformes) - Wasila Dahdal, PhD

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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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Molecular Biosciences Theses and Dissertations

Theses/dissertations from 2023 2023.

Exploring strain variation and bacteriophage predation in the gut microbiome of Ciona robusta , Celine Grace F. Atkinson

Distinct Nrf2 Signaling Thresholds Mediate Lung Tumor Initiation and Progression , Janine M. DeBlasi

Thermodynamic frustration of TAD2 and PRR contribute to autoinhibition of p53 , Emily Gregory

Utilization of Detonation Nanodiamonds: Nanocarrier for Gene Therapy in Non-Small Cell Lung Cancer , Allan E. Gutierrez

Role of HLA-DRB1 Fucosylation in Anti-Melanoma Immunity , Daniel K. Lester

Targeting BET Proteins Downregulates miR-33a To Promote Synergy with PIM Inhibitors in CMML , Christopher T. Letson

Regulated Intramembrane Proteolysis by M82 Peptidases: The Role of PrsS in the Staphylococcus aureus Stress Response , Baylie M. Schott

Histone Deacetylase 8 is a Novel Therapeutic Target for Mantle Cell Lymphoma and Preserves Natural Killer Cell Cytotoxic Function , January M. Watters

Theses/Dissertations from 2022 2022

Regulation of the Heat Shock Response via Lysine Acetyltransferase CBP-1 and in Neurodegenerative Disease in Caenorhabditis elegans , Lindsey N. Barrett

Determining the Role of Dendritic Cells During Response to Treatment with Paclitaxel/Anti-TIM-3 , Alycia Gardner

Cell-free DNA Methylation Signatures in Cancer Detection and Classification , Jinyong Huang

The Role Of Eicosanoid Metabolism in Mammalian Wound Healing and Inflammation , Kenneth D. Maus

A Holistic Investigation of Acidosis in Breast Cancer , Bryce Ordway

Characterizing the Impact of Postharvest Temperature Stress on Polyphenol Profiles of Red and White-Fruited Strawberry Cultivars , Alyssa N. Smith

Theses/Dissertations from 2021 2021

Multifaceted Approach to Understanding Acinetobacter baumannii Biofilm Formation and Drug Resistance , Jessie L. Allen

Cellular And Molecular Alterations Associated with Ovarian and Renal Cancer Pathophysiology , Ravneet Kaur Chhabra

Ecology and diversity of boletes of the southeastern United States , Arian Farid

CircREV1 Expression in Triple-Negative Breast Cancer , Meagan P. Horton

Microbial Dark Matter: Culturing the Uncultured in Search of Novel Chemotaxonomy , Sarah J. Kennedy

The Multifaceted Role of CCAR-1 in the Alternative Splicing and Germline Regulation in Caenorhabditis elegans , Doreen Ikhuva Lugano

Unraveling the Role of Novel G5 Peptidase Family Proteins in Virulence and Cell Envelope Biogenesis of Staphylococcus aureus , Stephanie M. Marroquin

Cytoplasmic Polyadenylation Element Binding Protein 2 Alternative Splicing Regulates HIF1α During Chronic Hypoxia , Emily M. Mayo

Transcriptomic and Functional Investigation of Bacterial Biofilm Formation , Brooke R. Nemec

A Functional Characterization of the Omega (ω) subunit of RNA Polymerase in Staphylococcus aureus , Shrushti B. Patil

The Role Of Cpeb2 Alternative Splicing In TNBC Metastasis , Shaun C. Stevens

Screening Next-generation Fluorine-19 Probe and Preparation of Yeast-derived G Proteins for GPCR Conformation and Dynamics Study , Wenjie Zhao

Theses/Dissertations from 2020 2020

Understanding the Role of Cereblon in Hematopoiesis Through Structural and Functional Analyses , Afua Adutwumwa Akuffo

To Mid-cell and Beyond: Characterizing the Roles of GpsB and YpsA in Cell Division Regulation in Gram-positive Bacteria , Robert S. Brzozowski

Spatiotemporal Changes of Microbial Community Assemblages and Functions in the Subsurface , Madison C. Davis

New Mechanisms That Regulate DNA Double-Strand Break-Induced Gene Silencing and Genome Integrity , Dante Francis DeAscanis

Regulation of the Heat Shock Response and HSF-1 Nuclear Stress Bodies in C. elegans , Andrew Deonarine

New Mechanisms that Control FACT Histone Chaperone and Transcription-mediated Genome Stability , Angelo Vincenzo de Vivo Diaz

Targeting the ESKAPE Pathogens by Botanical and Microbial Approaches , Emily Dilandro

Succession in native groundwater microbial communities in response to effluent wastewater , Chelsea M. Dinon

Role of ceramide-1 phosphate in regulation of sphingolipid and eicosanoid metabolism in lung epithelial cells , Brittany A. Dudley

Allosteric Control of Proteins: New Methods and Mechanisms , Nalvi Duro

Microbial Community Structures in Three Bahamian Blue Holes , Meghan J. Gordon

A Novel Intramolecular Interaction in P53 , Fan He

The Impact of Myeloid-Mediated Co-Stimulation and Immunosuppression on the Anti-Tumor Efficacy of Adoptive T cell Therapy , Pasquale Patrick Innamarato

Investigating Mechanisms of Immune Suppression Secondary to an Inflammatory Microenvironment , Wendy Michelle Kandell

Posttranslational Modification and Protein Disorder Regulate Protein-Protein Interactions and DNA Binding Specificity of p53 , Robin Levy

Mechanistic and Translational Studies on Skeletal Malignancies , Jeremy McGuire

Novel Long Non-Coding RNA CDLINC Promotes NSCLC Progression , Christina J. Moss

Genome Maintenance Roles of Polycomb Transcriptional Repressors BMI1 and RNF2 , Anthony Richard Sanchez IV

The Ecology and Conservation of an Urban Karst Subterranean Estuary , Robert J. Scharping

Biological and Proteomic Characterization of Cornus officinalis on Human 1.1B4 Pancreatic β Cells: Exploring Use for T1D Interventional Application , Arielle E. Tawfik

Evaluation of Aging and Genetic Mutation Variants on Tauopathy , Amber M. Tetlow

Theses/Dissertations from 2019 2019

Investigating the Proteinaceous Regulome of the Acinetobacter baumannii , Leila G. Casella

Functional Characterization of the Ovarian Tumor Domain Deubiquitinating Enzyme 6B , Jasmin M. D'Andrea

Integrated Molecular Characterization of Lung Adenocarcinoma with Implications for Immunotherapy , Nicholas T. Gimbrone

The Role of Secreted Proteases in Regulating Disease Progression in Staphylococcus aureus , Brittney D. Gimza

Advanced Proteomic and Epigenetic Characterization of Ethanol-Induced Microglial Activation , Jennifer Guergues Guergues

Understanding immunometabolic and suppressive factors that impact cancer development , Rebecca Swearingen Hesterberg

Biochemical and Proteomic Approaches to Determine the Impact Level of Each Step of the Supply Chain on Tomato Fruit Quality , Robert T. Madden

Enhancing Immunotherapeutic Interventions for Treatment of Chronic Lymphocytic Leukemia , Kamira K. Maharaj

Characterization of the Autophagic-Iron Axis in the Pathophysiology of Endometriosis and Epithelial Ovarian Cancers , Stephanie Rockfield

Understanding the Influence of the Cancer Microenvironment on Metabolism and Metastasis , Shonagh Russell

Modeling of Interaction of Ions with Ether- and Ester-linked Phospholipids , Matthew W. Saunders

Novel Insights into the Multifaceted Roles of BLM in the Maintenance of Genome Stability , Vivek M. Shastri

Conserved glycine residues control transient helicity and disorder in the cold regulated protein, Cor15a , Oluwakemi Sowemimo

A Novel Cytokine Response Modulatory Function of MEK Inhibitors Mediates Therapeutic Efficacy , Mengyu Xie

Novel Strategies on Characterizing Biologically Specific Protein-protein Interaction Networks , Bi Zhao

Theses/Dissertations from 2018 2018

Characterization of the Transcriptional Elongation Factor ELL3 in B cells and Its Role in B-cell Lymphoma Proliferation and Survival , Lou-Ella M.m. Alexander

Identification of Regulatory miRNAs Associated with Ethanol-Induced Microglial Activation Using Integrated Proteomic and Transcriptomic Approaches , Brandi Jo Cook

Molecular Phylogenetics of Floridian Boletes , Arian Farid

MYC Distant Enhancers Underlie Ovarian Cancer Susceptibility at the 8q24.21 Locus , Anxhela Gjyshi Gustafson

Quantitative Proteomics to Support Translational Cancer Research , Melissa Hoffman

A Systems Chemical Biology Approach for Dissecting Differential Molecular Mechanisms of Action of Clinical Kinase Inhibitors in Lung Cancer , Natalia Junqueira Sumi

Investigating the Roles of Fucosylation and Calcium Signaling in Melanoma Invasion , Tyler S. Keeley

Synthesis, Oxidation, and Distribution of Polyphenols in Strawberry Fruit During Cold Storage , Katrina E. Kelly

Investigation of Alcohol-Induced Changes in Hepatic Histone Modifications Using Mass Spectrometry Based Proteomics , Crystina Leah Kriss

Off-Target Based Drug Repurposing Using Systems Pharmacology , Brent M. Kuenzi

Investigation of Anemarrhena asphodeloides and its Constituent Timosaponin-AIII as Novel, Naturally Derived Adjunctive Therapeutics for the Treatment of Advanced Pancreatic Cancer , Catherine B. MarElia

The Role of Phosphohistidine Phosphatase 1 in Ethanol-induced Liver Injury , Daniel Richard Martin

Theses/Dissertations from 2017 2017

Changing the Pathobiological Paradigm in Myelodysplastic Syndromes: The NLRP3 Inflammasome Drives the MDS Phenotype , Ashley Basiorka

Modeling of Dynamic Allostery in Proteins Enabled by Machine Learning , Mohsen Botlani-Esfahani

Uncovering Transcriptional Activators and Targets of HSF-1 in Caenorhabditis elegans , Jessica Brunquell

The Role of Sgs1 and Exo1 in the Maintenance of Genome Stability. , Lillian Campos-Doerfler

Mechanisms of IKBKE Activation in Cancer , Sridevi Challa

Discovering Antibacterial and Anti-Resistance Agents Targeting Multi-Drug Resistant ESKAPE Pathogens , Renee Fleeman

Functional Roles of Matrix Metalloproteinases in Bone Metastatic Prostate Cancer , Jeremy S. Frieling

Disorder Levels of c-Myb Transactivation Domain Regulate its Binding Affinity to the KIX Domain of CREB Binding Protein , Anusha Poosapati

Role of Heat Shock Transcription Factor 1 in Ovarian Cancer Epithelial-Mesenchymal Transition and Drug Sensitivity , Chase David Powell

Cell Division Regulation in Staphylococcus aureus , Catherine M. Spanoudis

A Novel Approach to the Discovery of Natural Products From Actinobacteria , Rahmy Tawfik

Non-classical regulators in Staphylococcus aureus , Andy Weiss

Theses/Dissertations from 2016 2016

In Vitro and In Vivo Antioxidant Capacity of Synthetic and Natural Polyphenolic Compounds Identified from Strawberry and Fruit Juices , Marvin Abountiolas

Quantitative Proteomic Investigation of Disease Models of Type 2 Diabetes , Mark Gabriel Athanason

CMG Helicase Assembly and Activation: Regulation by c-Myc through Chromatin Decondensation and Novel Therapeutic Avenues for Cancer Treatment , Victoria Bryant

Computational Modeling of Allosteric Stimulation of Nipah Virus Host Binding Protein , Priyanka Dutta

Cell Cycle Arrest by TGFß1 is Dependent on the Inhibition of CMG Helicase Assembly and Activation , Brook Samuel Nepon-Sixt

Gene Expression Profiling and the Role of HSF1 in Ovarian Cancer in 3D Spheroid Models , Trillitye Paullin

VDR-RIPK1 Interaction and its Implications in Cell Death and Cancer Intervention , Waise Quarni

Regulation of nAChRs and Stemness by Nicotine and E-cigarettes in NSCLC , Courtney Schaal

Targeting Histone Deacetylases in Melanoma and T-cells to Improve Cancer Immunotherapy , Andressa Sodre De Castro Laino

Nonreplicative DNA Helicases Involved in Maintaining Genome Stability , Salahuddin Syed

Theses/Dissertations from 2015 2015

Functional Analysis of the Ovarian Cancer Susceptibility Locus at 9p22.2 Reveals a Transcription Regulatory Network Mediated by BNC2 in Ovarian Cells , Melissa Buckley

Exploring the Pathogenic and Drug Resistance Mechanisms of Staphylococcus aureus , Whittney Burda

Regulation and Targeting of the FANCD2 Activation in DNA Repair , Valentina Celeste Caceres

Mass Spectrometry-Based Investigation of APP-Dependent Mechanisms in Neurodegeneration , Dale Chaput

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Biotechnology

Research in biotechnology can helps in bringing massive changes in humankind and lead to a better life. In the last few years, there have been so many leaps, and paces of innovations as scientists worldwide worked to develop and produce novel mRNA vaccinations and brought some significant developments in biotechnology. During this period, they also faced many challenges. Disturbances in the supply chain and the pandemic significantly impacted biotech labs and researchers, forcing lab managers to become ingenious in buying lab supplies, planning experiments, and using technology for maintaining research schedules.

At the beginning of 2022, existing biotech research projects are discovering progress in medicines, vaccines, disease treatment and the human body, immunology, and some viruses such as coronavirus that had such a destructive impact that we could never have expected.

The Biotech Research Technique is changing

How research is being done is changing, as also how scientists are conducting it. Affected by both B2C eCommerce and growing independence in remote and cloud-dependent working, most of the biotechnology labs are going through some digital transformations. This implies more software, automation, and AI in the biotech lab, along with some latest digital procurement plans and integrated systems for various lab operations.

In this article, we’ll discuss research topics in biotechnology for students, biotechnology project topics, biotechnology research topics for undergraduates, biotechnology thesis topics, biotechnology research topics for college students, biotechnology research paper topics, biotechnology dissertation topics, biotechnology project ideas for high school, medical biotechnology topics for presentation, research topics for life science , research topics on biotechnology , medical biotechnology topics, recent research topics in biotechnology, mini project ideas for biotechnology, pharmaceutical biotechnology topics, plant biotechnology research topics, research topics in genetics and biotechnology, final year project topics for biotechnology, biotech research project ideas, health biotechnology topics, industrial biotechnology topics, agricultural biotechnology project topics and biology thesis topics.

Look at some of the top trends in biotech research and recent Biotechnology Topics that are bringing massive changes in this vast world of science, resulting in some innovation in life sciences and biotechnology ideas .

Development of vaccine: Development of mRNA has been done since 1989 but has accelerated to combat the pandemic. As per many researchers, mRNA vaccines can change infectious disease control as it is a prophylactic means of disease prevention for various diseases such as flu, HIV, etc.
Respiratory viruses: More and more research is being done because understanding those viruses will assist in getting better protection, prohibition, and promising treatments for respiratory viruses.
Microvesicles and extracellular vesicles are now being focused on because of their involvement in the transportation of mRNA, miRNA, and proteins. But in what other ways can they give support to the human body? So many unknown roles of microvesicles and extracellular vesicles should be discovered.
RNA-based Therapeutics: Researchers focus on RNA-based therapeutics such as CAR T cells, other gene/cell therapeutics, small molecular drugs to treat more diseases and other prophylactic purposes.
Metabolism in cancers and other diseases: Metabolism helps convert energy and represent the chemical reactions that will sustain life. Nowadays, research is being done to study metabolism in cancers and immune cells to uncover novel ways to approach treatment and prohibition of a specific illness.

All of the ongoing research keeps the potential to bring changes in the quality of life of millions of people, prohibit and do treatment of illnesses that at present have a very high rate of mortality, and change healthcare across the world.

We share different job or exam notices on Labmonk Notice Board . You can search “ Labmonk Notice Board ” on google search to check out latest jobs of your field.

Click the page numbers below to read more on this topic.

80 Natural Science Research Topics

FacebookXEmailWhatsAppRedditPinterestLinkedInIf you are a student seeking compelling research topics in Natural Science, you have come to the right place. Embarking on the exciting academic research journey. This holds especially true for those aspiring to delve into the diverse realms of Natural Science, seeking to carve their scholarly path at undergraduate, master’s, or doctoral levels. Research […]

If you are a student seeking compelling research topics in Natural Science, you have come to the right place. Embarking on the exciting academic research journey. This holds especially true for those aspiring to delve into the diverse realms of Natural Science, seeking to carve their scholarly path at undergraduate, master’s, or doctoral levels. Research topics in this field encompass a spectrum of fascinating explorations, ranging from ecological studies to molecular investigations, beckoning the curious minds of budding scientists. In this blog post, we aim to provide guidance and inspiration by presenting a curated list of captivating research topics across various degrees within the Natural Science domain.

Natural Science, also called physical science, life science, biological science, and Earth science, encompasses the systematic study of the material, biological, and Earth sciences, aiming to understand the fundamental laws and processes governing the natural world.

A List Of Potential Research Topics In Natural Science:

Investigating the potential of using CRISPR-Cas9 technology for targeted cancer therapy and minimizing off-target effects.
Assessing the utilization and efficiency of renewable energy sources during and after the COVID-19 pandemic.
Evaluating the preparedness and response strategies of the UK healthcare system to future pandemics based on lessons learned from COVID-19.
Analyzing the effects of temperature changes on coral reef health and resilience to bleaching events.
Assessing the potential of 3D printing in tissue engineering for organ transplantation and regenerative medicine.
Investigating the impact of COVID-19 on marine ecosystems and biodiversity.
Assessing the effects of soil pollution on plant growth and agricultural productivity.
Studying the psychological well-being of healthcare workers post-COVID-19: A naturalistic observation approach.
Investigating the educational disparities exacerbated by the shift to online learning during the COVID-19 pandemic in the UK.
Examining the link between biodiversity loss and the spread of infectious diseases, focusing on zoonotic diseases.
Understanding the dynamics of wildfire spread and exploring innovative strategies for effective wildfire management and prevention.
Assessing the changes in wildlife behavior and population dynamics following reduced human activity during the COVID-19 lockdowns.
Studying the effects of urbanization on wildlife behavior, migration patterns, and habitat usage.
Examining the role of gut microbiota in obesity and metabolic disorders, focusing on prevention and treatment.
Investigating the effectiveness of stem cell therapy in regenerating damaged heart tissues and improving cardiac function.
Studying the effects of COVID-19 lockdowns on air quality and pollution levels in various regions of the UK.
Analyzing the long-term effects of air pollution reduction during the COVID-19 pandemic on urban environments.
Investigating the impact of antibiotic resistance on public health and strategies to combat it effectively.
Exploring the impact of defaunation on ecosystem structure and function in tropical rainforests.
Impact of climate change on migratory patterns of avian species in veterinary science and natural science.
Evaluating the effects of noise pollution on wildlife behavior and its implications for conservation efforts.
Studying the impact of habitat fragmentation on species diversity and ecosystem stability in tropical rainforests.
Analyzing the dynamics of antibiotic resistance in post-COVID-19 healthcare settings.
Assessing the role of soil microbes in enhancing plant growth and mitigating soil degradation in agricultural landscapes.
Assessing the impact of COVID-19 on mental health disparities in various communities across the UK.
Exploring the impact of COVID-19 on food security and supply chains in the UK.
Understanding the impact of COVID-19 on water quality and aquatic ecosystems.
Exploring the effects of habitat loss on insect populations and their ecological roles in ecosystems.
Examining the role of phytochemicals in preventing and treating chronic diseases in humans.
Investigating the effectiveness of public health measures in controlling COVID-19 outbreaks in different regions of the UK.
Assessing the impact of deforestation on carbon sequestration and its role in global climate change.
Assessing the potential of utilizing algae for wastewater treatment and nutrient recovery.
Investigating the impact of climate change on the migratory patterns of avian species across North America.
Investigating using artificial intelligence and machine learning in drug discovery and pharmaceutical research.
Analyzing the resilience and adaptability of the UK healthcare system during the COVID-19 pandemic.
Investigating the use of nanotechnology in targeted drug delivery for enhanced cancer treatment efficacy and reduced side effects.
Assessing the effects of electromagnetic fields on wildlife behavior and physiological responses.
Exploring the role of the gut-brain axis in influencing mental health and neurological disorders.
Investigating the potential of using plant-based biomaterials for sustainable packaging and reducing plastic waste.
Exploring the potential of using algae for biofuel production as a sustainable alternative to fossil fuels.
Investigating the potential of bioinspired materials for sustainable engineering solutions.
Exploring the effects of climate change on Arctic ecosystems and its implications for global climate dynamics.
Investigating sustainable agricultural practices for enhanced food security and reduced environmental degradation.
A comprehensive review of recent advancements in climate change research and mitigation strategies.
Evaluating the potential of renewable energy sources in meeting growing energy demands and reducing greenhouse gas emissions.
Analyzing the role of natural products in drug discovery and development: A contemporary review.
A critical review of emerging technologies for clean and renewable energy production.
Examining the effectiveness of conservation interventions in protecting endangered species and their habitats.
Investigating the role of epigenetic modifications in the development and progression of autoimmune diseases.
Investigating the link between air pollution exposure and the incidence of respiratory diseases in urban populations.
Analyzing the effects of light pollution on nocturnal pollination and its implications for plant reproduction.
Analyzing the impact of urbanization on biodiversity and ecosystems: A global perspective.
Evaluating the impact of hydraulic fracturing (fracking) on groundwater quality and its potential environmental consequences.
Examining the relationship between gut microbiota and mental health, focusing on anxiety and depression disorders.
Studying the impact of noise pollution on bird communication and nesting behavior.
Studying the potential of utilizing renewable energy in desalination processes to address water scarcity.
Investigating the potential of using drones for monitoring and managing natural disasters like wildfires and floods.
Evaluating the sustainability of remote work and its environmental implications after the COVID-19 pandemic.
Assessing the impact of electronic waste (e-waste) on the environment and human health.
Examining the potential of using nanomaterials for water purification and addressing water scarcity issues.
Studying the effects of electromagnetic radiation on human health and exploring possible mitigation strategies.
Analyzing the role of microbiomes in the human gastrointestinal tract and their influence on overall health.
Assessing the effects of global warming on the distribution and behavior of marine mammals in polar regions.
Integrating ecosystem conservation and sustainable water management in natural science and water law .
Analyzing the role of ocean acidification in coral bleaching events and its consequences on coral reef ecosystems.
Analyzing the impact of artificial intelligence in climate modeling for more accurate climate change predictions.
Assessing the impact of microorganisms in soil health and their role in sustainable agriculture practices.
Analyzing the impact of heavy metal pollution on aquatic ecosystems and its potential health risks for humans.
Exploring the effects of COVID-19-related stress on the immune system and overall health.
Exploring the potential of gene editing technologies for environmental conservation and restoration.
Analyzing the role of government policies and public trust in managing the spread of COVID-19 in the UK.
Understanding the interplay of climate change and infectious disease outbreaks: A global perspective.
Assessing the implications of artificial intelligence in monitoring and managing natural disasters.
Assessing the impact of plastic waste on marine life and exploring innovative solutions for marine plastic pollution.
Studying the potential of regenerative agriculture in restoring degraded soils and improving agricultural sustainability.
Evaluating the potential of stem cell-based therapies for spinal cord injury and neurological disorders.
Investigating the role of telemedicine in healthcare delivery during and after the COVID-19 crisis.
Evaluating the effectiveness of solar-powered water treatment systems for providing clean drinking water in remote areas.
Analyzing the effects of microplastic pollution on marine biodiversity and ecosystems in coastal regions.
Examining the relationship between socioeconomic factors and COVID-19 vaccine uptake in the UK.

In conclusion, Natural Science offers a rich tapestry of research avenues across undergraduate, master’s, and doctoral levels. From investigating climate change impacts on biodiversity to deciphering genetic mechanisms in disease progression, potential research topics abound for aspiring scholars. Embrace the excitement of exploration and discovery as you choose a research path aligned with your passion and academic goals. The natural world awaits your inquisitive mind, offering many meaningful and impactful research possibilities.

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Improving monoclonal antibody production from chinese hamster ovary cells , enhancing glycosylated triterpenoid production in saccharomyces cerevisiae , biosynthesis of metallic nanoparticles for use in anti-corrosion and anti-fouling agents , exploring s-nitrosoglutathione reductase function in the non-vascular plant, marchantia polymorpha , bioengineering inducible gene expression in leafy brassicas to address post-harvest-specific requirements , sex determination, sex chromosomes, and supergenes: evolution of an unusual reproductive system , super-resolution imaging of proteins in live cells using reversibly interacting peptide pairs , understanding the role and function of spocd1 in pirna-directed de novo dna methylation , sequencing b cell receptor repertoires in human disease: applications in myalgic encephalomyelitis/chronic fatigue syndrome and in experimental malaria infection , role of tyrosine phosphatase ptpn22 in ctl responses to tumours and t cell exhaustion , rna editing ligases as novel drug targets in trypanosomatid parasites , pifs as a novel target in soybean to modulate the shade avoidance syndrome , structure and function of microtubule nucleation proteins , evaluation of the structural, functional, cellular and molecular basis of heart pathophysiology in mouse models of spinal muscular atrophy , understanding and utilising bacterial growth rate changes at high external osmolarities , origin and maintenance of diversity in british euphrasia (orobanchaceae) , single-cell time-series analysis of metabolic rhythms in yeast , ectopic heterochromatin provides an alternative route to fungal resistance , understanding adaptive immunity using immune receptor repertoire sequencing , mapping inbreeding depression in wild red deer (cervus elaphus) .

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Biochemistry.

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

Pharmacology

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?

Psychology, Neuroscience and Behaviour

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?

Mechanisms of mass extinction

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?

Minor subjects

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?

Development and Psychopathology

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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HDL in humans: a complex system of proteins, each with its own unique size distribution, metabolism, and diet regulation
MicroRNAs in Kidney Injury & Repair: Characterizing the Role of miR-132
Immunomodulatory pathways and metabolism
The evolution of drug resistant Mycobacterium tuberculosis
Empowering the experimental biology of Plasmodium vivax through elucidating requirements for ex vivo culture
Molecular mechanisms of metabolic adaptation to endurance exercise
Interplay of Trypanosoma cruzi and host metabolism and impact on parasite intracellular growth
A tale of brothers, sisters, aunts and uncles: using genomics and modeling to uncover the nature of P. falciparum polygenomic infections and cotransmission
Circadian integration of hepatic de novo lipogenesis and peripheral energy substrates utilization
Molecular and ecological factors modulating the fitness of Anopheles gambiae mosquitoes infected with Plasmodium falciparum
SREBP: A Key Effector of mTORC1 Signaling in Metabolism and Cancer
Where proteins go to die: Elucidating the physiological and therapeutic significance of the Clp protease complex in Mycobacterium tuberculosis
Mechanisms of recognition of HIV-infected cells by CD8+ T cells that mediate effective antiviral responses
Alterations in energy metabolism and neurodegeneration as a consequence of DNA damage
The Role of the Microbiome in Sex and Obesity Effects on Ozone-Induced Airway Hyperresponsiveness

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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 team of writers is highly qualified. They are experts in their respective fields. They have been working for us for a long time. Thus, they are well aware of the issues and the trends of the subject they specialize in.

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Frequently Asked Questions

How to find dissertation topics about science.

For science dissertation topics:

Follow latest scientific advancements.
Investigate unresolved questions.
Browse reputable journals.
Explore interdisciplinary areas.
Consult professors for guidance.
Opt for topics aligning with your passion and career aspirations.

How To Find A High-Quality Research Topic

6 steps to find & evaluate high-quality dissertation/thesis topics.

By: Caroline Osella (PhD, BA) and Derek Jansen (MBA) | July 2019

So, you’re finally nearing the end of your degree and it’s now time to find a suitable topic for your dissertation or thesis. Or perhaps you’re just starting out on your PhD research proposal and need to find a suitable area of research for your application proposal.

In this post, we’ll provide a straightforward 6-step process that you can follow to ensure you arrive at a high-quality research topic . Follow these steps and you will formulate a well-suited, well-defined core research question .

There’s a helpful clue already: your research ‘topic’ is best understood as a research question or a problem . Your aim is not to create an encyclopedia entry into your field, but rather to shed light on an acknowledged issue that’s being debated (or needs to be). Think research questions , not research topics (we’ll come back to this later).

Overview: How To Find & Choose A Research Topic

Get an understanding of the research process
Review previous dissertations from your university
Review the academic literature to start the ideation process
Identify your potential research questions (topics) and shortlist
Narrow down, then evaluate your research topic shortlist
Make the decision (and stick with it!)

Step 1: Understand the research process

It may sound horribly obvious, but it’s an extremely common mistake – students skip past the fundamentals straight to the ideation phase (and then pay dearly for it).

Start by looking at whatever handouts and instructions you’ve been given regarding what your university/department expects of a dissertation. For example, the course handbook, online information and verbal in-class instructions. I know it’s tempting to just dive into the ideation process, but it’s essential to start with the prescribed material first.

There are two important reasons for this:

First , you need to have a basic understanding of the research process , research methodologies , fieldwork options and analysis methods before you start the ideation process, or you will simply not be equipped to think about your own research adequately. If you don’t understand the basics of quantitative , qualitative and mixed methods BEFORE you start ideating, you’re wasting your time.

Second , your university/department will have specific requirements for your research – for example, requirements in terms of topic originality, word count, data requirements, ethical adherence, methodology, etc. If you are not aware of these from the outset, you will again end up wasting a lot of time on irrelevant ideas/topics.

So, the most important first step is to get your head around both the basics of research (especially methodologies), as well as your institution’s specific requirements . Don’t give in to the temptation to jump ahead before you do this. As a starting point, be sure to check out our free dissertation course.

Free Webinar: How To Find A Dissertation Research Topic

Step 2: Review past dissertations/theses

Unless you’re undertaking a completely new course, there will be many, many students who have gone through the research process before and have produced successful dissertations, which you can use to orient yourself. This is hugely beneficial – imagine being able to see previous students’ assignments and essays when you were doing your coursework!

Take a look at some well-graded (65% and above) past dissertations from your course (ideally more recent ones, as university requirements may change over time). These are usually available in the university’s online library. Past dissertations will act as a helpful model for all kinds of things, from how long a bibliography needs to be, to what a good literature review looks like, through to what kinds of methods you can use – and how to leverage them to support your argument.

As you peruse past dissertations, ask yourself the following questions:

What kinds of topics did these dissertations cover and how did they turn the topic into questions?
How broad or narrow were the topics?
How original were the topics? Were they truly groundbreaking or just a localised twist on well-established theory?
How well justified were the topics? Did they seem important or just nice to know?
How much literature did they draw on as a theoretical base? Was the literature more academic or applied in nature?
What kinds of research methods did they use and what data did they draw on?
How did they analyse that data and bring it into the discussion of the academic literature?
Which of the dissertations are most readable to you – why? How were they presented?
Can you see why these dissertations were successful? Can you relate what they’ve done back to the university’s instructions/brief?

Seeing a variety of dissertations (at least 5, ideally in your area of interest) will also help you understand whether your university has very rigid expectations in terms of structure and format , or whether they expect and allow variety in the number of chapters, chapter headings, order of content, style of presentation and so on.

Some departments accept graphic novels; some are willing to grade free-flow continental-philosophy style arguments; some want a highly rigid, standardised structure. Many offer a dissertation template , with information on how marks are split between sections. Check right away whether you have been given one of those templates – and if you do, then use it and don’t try to deviate or reinvent the wheel.

Step 3: Review the academic literature

Now that you (1) understand the research process, (2) understand your university’s specific requirements for your dissertation or thesis, and (3) have a feel for what a good dissertation looks like, you can start the ideation process. This is done by reviewing the current literature and looking for opportunities to add something original to the academic conversation.

Kick start the ideation process

So, where should you start your literature hunt? The best starting point is to get back to your modules. Look at your coursework and the assignments you did. Using your coursework is the best theoretical base, as you are assured that (1) the literature is of a high enough calibre for your university and (2) the topics are relevant to your specific course.

Start by identifying the modules that interested you the most and that you understood well (i.e. earned good marks for). What were your strongest assignments, essays or reports? Which areas within these were particularly interesting to you? For example, within a marketing module, you may have found consumer decision making or organisation trust to be interesting. Create a shortlist of those areas that you were both interested in and academically strong at. It’s no use picking an area that does not genuinely interest you – you’ll run out of motivation if you’re not excited by a topic.

Understand the current state of knowledge

Once you’ve done that, you need to get an understanding of the current state of the literature for your chosen interest areas. What you’re aiming to understand is this: what is the academic conversation here and what critical questions are yet unanswered? These unanswered questions are prime opportunities for a unique, meaningful research topic . A quick review of the literature on your favourite topics will help you understand this.

Grab your reading list from the relevant section of the modules, or simply enter the topics into Google Scholar . Skim-read 3-5 journal articles from the past 5 years which have at least 5 citations each (Google Scholar or a citations index will show you how many citations any given article has – i.e., how many other people have referred to it in their own bibliography). Also, check to see if your discipline has an ‘annual review’ type of journal, which gathers together surveys of the state of knowledge on a chosen topic. This can be a great tool for fast-tracking your understanding of the current state of the knowledge in any given area.

Start from your course’s reading list and work outwards. At the end of every journal article, you’ll find a reference list. Scan this reference list for more relevant articles and read those. Then repeat the process (known as snowballing) until you’ve built up a base of 20-30 quality articles per area of interest.

Absorb, don’t hunt

At this stage, your objective is to read and understand the current state of the theory for your area(s) of interest – you don’t need to be in topic-hunting mode yet. Don’t jump the gun and try to identify research topics before you are well familiarised with the literature.

As you read, try to understand what kinds of questions people are asking and how they are trying to answer them. What matters do the researchers agree on, and more importantly, what are they in disagreement about? Disagreements are prime research territory. Can you identify different ‘schools of thought’ or different ‘approaches’? Do you know what your own approach or slant is? What kinds of articles appeal to you and which ones bore you or leave you feeling like you’ve not really grasped them? Which ones interest you and point towards directions you’d like to research and know more about?

Once you understand the fundamental fact that academic knowledge is a conversation, things get easier.

Think of it like a party. There are groups of people in the room, enjoying conversations about various things. Which group do you want to join? You don’t want to be that person in the corner, talking to themself. And you don’t want to be the hanger-on, laughing at the big-shot’s jokes and repeating everything they say.

Do you want to join a large group and try to make a small contribution to what’s going on, or are you drawn to a smaller group that’s having a more niche conversation, but where you feel you might more easily find something original to contribute? How many conversations can you identify? Which ones feel closer to you and more attractive? Which ones repel you or leave you cold? Are there some that, frankly, you just don’t understand?

Now, choose a couple of groups who are discussing something you feel interested in and where you feel like you might want to contribute. You want to make your entry into this group by asking a question – a question that will make the other people in the group turn around and look at you, listen to you, and think, “That’s interesting”.

Your dissertation will be the process of setting that question and then trying to find at least a partial answer to that question – but don’t worry about that now. Right now, you need to work out what conversations are going on, whether any of them are related or overlapping, and which ones you might be able to walk into. I’ll explain how you find that question in the next step.

Need a helping hand?

Step 4: Identify potential research questions

Now that you have a decent understanding of the state of the literature in your area(s) of interest, it’s time to start developing your list of possible research topics. There are (at least) three approaches you can follow here, and they are not mutually exclusive:

Approach 1: Leverage the FRIN

Towards the end of most quality journal articles, you will find a section labelled “ further research ” or something similar. Generally, researchers will clearly outline where they feel further research is needed (FRIN), following on from their own research. So, essentially, every journal article presents you with a list of potential research opportunities.

Of course, only a handful of these will be both practical and of interest to you, so it’s not a quick-fix solution to finding a research topic. However, the benefit of going this route is that you will be able to find a genuinely original and meaningful research topic (which is particularly important for PhD-level research).

The upside to this approach is originality, but the downside is that you might not find something that really interests you , or that you have the means to execute. If you do go this route, make sure that you pay attention to the journal article dates, as the FRIN may already have been “solved” by other researchers if the article is old.

Use the FRIN for dissertation topics ideas

Approach 2: Put a context-based spin on an existing topic

The second option is to consider whether a theory which is already well established is relevant within a local or industry-specific context. For example, a theory about the antecedents (drivers) of trust is very well established, but there may be unique or uniquely important drivers within a specific national context or industry (for example, within the financial services industry in an emerging market).

If that industry or national context has not yet been covered by researchers and there is a good reason to believe there may be meaningful differences within that context, then you have an opportunity to take a unique angle on well-established theory, which can make for a great piece of research. It is however imperative that you have a good reason to believe that the existing theory may not be wholly relevant within your chosen context, or your research will not be justified.

The upside to this approach is that you can potentially find a topic that is “closer to home” and more relevant and interesting to you , while still being able to draw on a well-established body of theory. However, the downside is that this approach will likely not produce the level of originality as approach #1.

Approach 3: Uncensored brainstorming

The third option is to skip the FRIN, as well as the local/industry-specific angle and simply engage in a freeform brainstorming or mind-mapping session, using your newfound knowledge of the theory to formulate potential research ideas. What’s important here is that you do not censor yourself . However crazy, unfeasible, or plain stupid your topic appears – write it down. All that matters right now is that you are interested in this thing.

Next, try to turn the topic(s) into a question or problem. For example:

What is the relationship between X, Y & Z?
What are the drivers/antecedents of X?
What are the outcomes of Y?
What are the key success factors for Z?

Re-word your list of topics or issues into a list of questions . You might find at this stage that one research topic throws up three questions (which then become sub-topics and even new separate topics in their own right) and in so doing, the list grows. Let it. Don’t hold back or try to start evaluating your ideas yet – just let them flow onto paper.

Once you’ve got a few topics and questions on paper, check the literature again to see whether any of these have been covered by the existing research. Since you came up with these from scratch, there is a possibility that your original literature search did not cover them, so it’s important to revisit that phase to ensure that you’re familiar with the relevant literature for each idea. You may also then find that approach #1 and #2 can be used to build on these ideas.

Try use all three approaches

As mentioned earlier, the three approaches discussed here are not mutually exclusive. In fact, the more, the merrier. Hopefully, you manage to utilise all three, as this will give you the best odds of producing a rich list of ideas, which you can then narrow down and evaluate, which is the next step.

Mix different approaches to find a topic

Step 5: Narrow down, then evaluate

By this stage, you should have a healthy list of research topics. Step away from the ideation and thinking for a few days, clear your mind. The key is to get some distance from your ideas, so that you can sit down with your list and review it with a more objective view. The unbridled ideation phase is over and now it’s time to take a reality check .

Look at your list and see if any options can be crossed off right away . Maybe you don’t want to do that topic anymore. Maybe the topic turned out to be too broad and threw up 20 hard to answer questions. Maybe all the literature you found about it was 30 years old and you suspect it might not be a very engaging contemporary issue . Maybe this topic is so over-researched that you’ll struggle to find anything fresh to say. Also, after stepping back, it’s quite common to notice that 2 or 3 of your topics are really the same one, the same question, which you’ve written down in slightly different ways. You can try to amalgamate these into one succinct topic.

Narrow down to the top 5, then evaluate

Now, take your streamlined list and narrow it down to the ‘top 5’ that interest you the most. Personal interest is your key evaluation criterion at this stage. Got your ‘top 5’? Great! Now, with a cool head and your best analytical mind engaged, go systematically through each option and evaluate them against the following criteria:

Research questions – what is the main research question, and what are the supporting sub-questions? It’s critically important that you can define these questions clearly and concisely. If you cannot do this, it means you haven’t thought the topic through sufficiently.

Originality – is the topic sufficiently original, as per your university’s originality requirements? Are you able to add something unique to the existing conversation? As mentioned earlier, originality can come in many forms, and it doesn’t mean that you need to find a completely new, cutting-edge topic. However, your university’s requirements should guide your decision-making here.

Importance – is the topic of real significance, or is it just a “nice to know”? If it’s significant, why? Who will benefit from finding the answer to your desired questions and how will they benefit? Justifying your research will be a key requirement for your research proposal , so it’s really important to develop a convincing argument here.

Literature – is there a contemporary (current) body of academic literature around this issue? Is there enough literature for you to base your investigation on, but not too much that the topic is “overdone”? Will you be able to navigate this literature or is it overwhelming?

Data requirements – What kind of data would you need access to in order to answer your key questions? Would you need to adopt a qualitative, quantitative or mixed-methods approach to answer your questions? At this stage, you don’t need to be able to map out your exact research design, but you should be able to articulate how you would approach it in high-level terms. Will you use qual, quant or mixed methods? Why?

Feasibility – How feasible would it be to gather the data that would be needed in the time-frame that you have – and do you have the will power and the skills to do it? If you’re not confident with the theory, you don’t want something that’s going to draw you into a debate about the relative importance of epistemology and ontology. If you are shy, you won’t want to be doing ethnographic interviews. If you feel this question calls for a 100-person survey, do you have the time to plan, organise and conduct it and then analyse it? What will you do if you don’t get the response rate you expect? Be very realistic here and also ask advice from your supervisor and other experts – poor response rates are extremely common and can derail even the best research projects.

Personal attraction – On a scale of 1-10, how excited are you about this topic? Will addressing it add value to your life and/or career? Will undertaking the project help you build a skill you’ve previously wanted to work on (for example, interview skills, statistical analysis skills, software skills, etc.)?

The last point is particularly important. You will have to engage with your dissertation in a very sustained and deep way, face challenges and difficulties, and get it to completion. If you don’t start out enthusiastic about it, you’re setting yourself up for problems like ‘writer’s block’ or ‘burnout’ down the line. This is the reason personal interest was the sole evaluation criterion when we chose the top 5. So, don’t underestimate the importance of personal attraction to a topic – at the same time, don’t let personal attraction lead you to choose a topic that is not relevant to your course or feasible given your resources.

A strong research topic must tick all three boxes – original, relevant and feasible. If not, you're going to run into problems sooner or later.

Narrow down to 3, then get human feedback

We’re almost at the finishing line. The next step is to narrow down to 2 or 3 shortlisted topics. No more! Write a short paragraph about each topic, addressing the following:

Firstly, WHAT will this study be about? Frame the topic as a question or a problem. Write it as a dissertation title. No more than two clauses and no more than 15 words. Less than 15 is better (go back to good journal articles for inspiration on appropriate title styles).

Secondly, WHY this is interesting (original) and important – as proven by existing academic literature? Are people talking about this and is there an acknowledged problem, debate or gap in the literature?

Lastly, HOW do you plan to answer the question? What sub-questions will you use? What methods does this call for and how competent and confident are you in those methods? Do you have the time to gather the data this calls for?

Show the shortlist and accompanying paragraphs to a couple of your peers from your course and also to an expert or two if at all possible (you’re welcome to reach out to us ), explaining what you will investigate, why this is original and important and how you will go about investigating it.

Once you’ve pitched your ideas, ask for the following thoughts :

Which is most interesting and appealing to them?
Why do they feel this way?
What problems do they foresee with the execution of the research?

Take advice and feedback and sit on it for another day. Let it simmer in your mind overnight before you make the final decision.

Step 6: Make the decision (and stick with it!)

Then, make the commitment. Choose the one that you feel most confident about, having now considered both your opinion and the feedback from others.

Once you’ve made a decision, don’t doubt your judgement, don’t shift. Don’t be tempted by the ones you left behind. You’ve planned and thought things through, checked feasibility and now you can start. You have your research topic. Trust your own decision-making process and stick with it now. It’s time to get started on your research proposal!

Let’s recap…

In this post, I’ve proposed a straightforward 6-step plan to finding relevant research topic ideas and then narrowing them down to finally choose one winner. To recap:

Understand the basics of academic research, as well as your university’s specific requirements for a dissertation, thesis or research project.
Review previous dissertations for your course to get an idea of both topics and structure.
Start the ideation process by familiarising yourself with the literature.
Identify your potential research questions (topics).
Narrow down your options, then evaluate systematically.
Make your decision (and don’t look back!)

If you follow these steps, you’ll find that they also set you up for what’s coming next – both the proposal and the first three chapters of your dissertation. But that’s for future posts!

Psst... there’s more!

This post was based on one of our popular Research Bootcamps . If you're working on a research project, you'll definitely want to check this out ...

You Might Also Like:

How to choose a research topic: full video tutorial

23 Comments

I would love to get a topic under teachers performance. I am a student of MSC Monitoring and Evaluations and I need a topic in the line of monitoring and evaluations

I just we put for some full notes that are payable

Thank you very much Dr Caroline

I need a project topics on transfer of learning

m a PhD Student I would like to be assisted inn formulating a title around: Internet of Things for online education in higher education – STEM (Science, technology, engineering and Mathematics, digital divide ) Thank you, would appreciate your guidance

Well structured guide on the topic… Good materials for beginners in research writing…

Hello Iam kindly seeking for help in formulating a researchable topic for masters degree program in line with teaching GRAPHIC ART

I read a thesis about a problem in a particular. Can I use the same topic just referring to my own country? Is that being original? The interview questions will mostly be the same as the other thesis.

Hi, thanks I managed to listen to the video so helpful indeed. I am currently an MBA student looking for a specific topic and I have different ideas that not sure they can be turned to be a study.

I am doing a Master of Theology in Pastoral Care and Counselling and I felt like doing research on Spiritual problem cause by substance abuse among Youth. Can I get help to formulate the Thesis Title in line with it…please

Hello, I am kindly seeking help in formulating a researchable topic for a National diploma program

As a beginner in research, I am very grateful for this well-structured material on research writing.

Hello, I watched the video and its very helpful. I’m a student in Nursing (degree). May you please help me with any research problems (in Namibian society or Nursing) that need to be evaluate or solved?

I have been greatly impacted. Thank you.

more than useful… there will be no justification if someone fails to get a topic for his thesis

I watched the video and its really helpful.

How can i started discovery

Analysing the significance of Integrated reporting in Zimbabwe. A case of institutional investors. this is my topic for PHD Accounting sciences need help with research questions

Excellent session that cleared lots of doubts.

Excellent session that cleared lots of doubts

It was a nice one thank you

Wow, This helped a lot not only with how to find a research topic but inspired me to kick it off from now, I am a final year student of environmental science. And have to complete my project in the coming six months.

I was really stressed and thinking about different topics that I don’t know nothing about and having more than a hundred topics in the baggage, couldn’t make the tradeoff among them, however, reading this scrubbed the fuzzy layer off my head and now it seems like really easy.

Thanks GRADCOACH, you saved me from getting into the rabbit hole.

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TUM School of Life Sciences
Technical University of Munich

Theses & Certificates

Your studies are coming to an end and now all that's missing is your final paper.

Thesis - topic selection and registration

In order to find an interesting topic get in contact with chairs, lecturers, professors or external companies. There are often postings on bulletin boards or websites, or just have a look if you find something suitable on our Jobs and Career page.

As soon as you have found a good topic, your thesis needs to be registered.

How do I register my thesis?

Please register your thesis, no matter if bachelor’s or master’s thesis, digitally in the thesis portal of the TUM School of Life Sciences. Please note that the login is only possible via the eduVPN client (download: https://www.eduvpn.org/client-apps/ and instruction: https://doku.lrz.de/pages/viewpage.action?pageId=87425039 ).

You can find detailed instructions including screenshots on how to register your thesis here .

The responsible examiner has to digitally agree to your application. If this is done, the examination team will check if the requirements for the thesis are met (credit requirements, internships, WPP-registration, etc. depending on the study program) and your registration will be submitted to the examination board for approval. If all requirements are met, the registration of your thesis will be approved by the examination team.

You will then receive a confirmation via e-mail from the system, which you should save for your records . In order to have enough lead time for the review and approval of your application, it should be sent to the Campus Office about 4 weeks before the planned thesis start date .

As soon as the registration has been completed, it will also be entered and displayed in TUMonline within the next few days. Please check your account.

Please note that you must be enrolled until the day you submit your thesis . Further information about de-registration: https://www.tum.de/en/studies/graduation/withdrawal-from-university/

Thesis Extension and Suspension

If you cannot meet your submission deadline for reasons beyond your control , the examination board may extend the completion period by a maximum of half of the regular processing time . If you are unable to work due to illness , the processing time will be suspended accordingly upon request.

How do I extend my thesis?

The application for an extension must be submitted to the examination board before the date of submission and your supervisor has to agree by providing his signature. Therefore, please contact your supervisor early enough if you have problems with meeting your deadline. In general, you should expect a processing period of approx. 3 weeks until the examination board has decided on your application and the entry is recorded in your student file. If you are ill and can prove by a medical certificate that you are prevented from working on your thesis, the processing time is suspended for the duration of the illness stated in the certificate. Please make sure that the medical certificate contains all the required information, especially the beginning and (expected) end of the inability to work on your thesis, a certificate of incapacity for work is not sufficient (instructions on this can be found via https://www.tum.de/en/studies/during-your-studies/organizing-your-studies/examinations/withdrawing-from-examinations-medical-certificates ) Please send the signed application to thesis.co(at)ls.tum.de . It will make it easier for us to process your application if you name it: Last name_Extension.pdf . It will then be forwarded to the respective examination board and you will be informed after the examination board has decided on your application.

Thesis extension / suspension form (English) Antrag auf Verlängerung / Ruhen der Abschlussarbeit (German)

Title page template

The layout of the cover sheet and various specifications are usually chair-specific. Please check the website of the chair or contact the supervisor of your thesis. Various general templates can be found in the MyTUM portal .

Thesis submission

The Bachelor's thesis must not be handed in later than three months after your thesis issue date. The Master's thesis must not be handed in later than six months after your thesis issue date. In case of part-time study programs, different deadlines apply in accordance with the respective FPSO.

Example Bachelor: Start issue date of the thesis May 1, latest submission date August 1.
Example Master: Start issue date of the thesis October 9, latest submission date April 9.

How do I submit my thesis?

After you have successfully completed your thesis, log in to the thesis portal and upload your thesis as PDF file. You can find detailed information about the upload procedure and about the required designation of your PDF file in the instructions with screenshots here . The digital submission does not prevent you from the obligation to hand in the printed and signed version of your thesis to your examiner.

If the upload to the portal is not possible due to technical reasons, please send your thesis to thesis.co(at)ls.tum.de before the deadline.

Evaluation forms for examiners

Thesis evaluation form

The evaluation form is filled out by the examiner and is then sent to the Campus Office ( thesis.co(at)ls.tum.de ) along with the title page.

Creation of certificates

After receipt of the thesis grade in the Campus Office you will receive an e-mail with all information regarding the procedure for the preparation of the certificate.

After the approval by your advisor it can take up to 6 weeks until your transcript is issued and signed. You will then be informed by the Central Examination Office that your transcript is ready for collection.

You can also get your certificate by mail. For this, please submit the following request for delivery of the final documents to the department of central examination matters: https://www.tum.de/en/studies/graduation/documents/

If you need an early certificate of graduation, please fill out the form for the issuance of a certificate of graduation ( https://www.tum.de/en/studies/graduation/documents/ ) and send it to the Graduation Office and Academic Records (Campus Weihenstephan). Please note that this is not a certificate, only an official confirmation of your degree. If you have any questions, please contact your student advisor: https://www.ls.tum.de/en/ls/studies/campus-office-and-student-advising/advice-and-support/

Further information of the TU Munich on the topic of final theses.

Help & FAQ

Dissertation Topics in Nursing

School of Nursing

Research output : Contribution to journal › Article › peer-review

Background: Few quantitative studies have documented the types of research topics most commonly employed by nursing PhD students and whether they differ by program delivery (in-person vs. online/hybrid programs). Objectives: We examined a large set of publicly available PhD dissertation abstracts to (a) describe the relative prevalence of different research topics and methods and (b) test whether the primary topics and methods used differed between online or hybrid and in-person PhD programs. A secondary goal was to introduce the reader to modern text-mining approaches to generate insights from a document corpus. Methods: Our database consisted of 2,027 dissertation abstracts published between 2015 and 2019. We used a structural topic modeling text-mining approach to explore PhD students’ research topics and methods in United States-based doctoral nursing programs. Results: We identified 24 different research topics representing a wide range of research activities. Most of the research topics identified did not differ in prevalence between online/hybrid and in-person programs. However, online/hybrid programs were more likely to engage students in research focused on nursing education, professional development, work environment, simulation, and qualitative analysis. Pediatrics, sleep science, older adults and aging, and chronic disease management were more prevalent topics in in-person-only programs. Discussion: The range of topics identified highlights the breadth of research nursing PhD students’ conduct. Both in-person and online/hybrid programs offer a range of research opportunities, although we did observe some differences in topic prevalence. These differences could be due to the nature of some types of research (e.g., research that requires an in-person presence) or differences in research intensity between programs (e.g., amount of grant funding or proximity to a medical center). Future research should explore why research topic prevalence may vary by program delivery. We hope that this text-mining application serves as an illustrative example for researchers considering how to draw inferences from large sets of text documents. We are particularly interested in seeing future work that might combine traditional qualitative approaches and large-scale text mining to leverage the advantages of each.

doctoral education
nursing science
text mining

ASJC Scopus subject areas

General Nursing

Access to Document

10.1097/NNR.0000000000000604

Fingerprint

Nursing Medicine & Life Sciences 100%
Data Mining Medicine & Life Sciences 44%
Nursing Students Medicine & Life Sciences 21%
Students Medicine & Life Sciences 12%
Nursing Education Medicine & Life Sciences 11%
Organized Financing Medicine & Life Sciences 10%
Disease Management Medicine & Life Sciences 9%
Sleep Medicine & Life Sciences 7%

T1 - Dissertation Topics in Nursing

AU - Dieckmann, Nathan F.

AU - Stoyles, Sydnee A.

AU - Aebischer, Jonathan H.

AU - Olvera-Alvarez, Hector A.

PY - 2022/9/1

Y1 - 2022/9/1

N2 - Background: Few quantitative studies have documented the types of research topics most commonly employed by nursing PhD students and whether they differ by program delivery (in-person vs. online/hybrid programs). Objectives: We examined a large set of publicly available PhD dissertation abstracts to (a) describe the relative prevalence of different research topics and methods and (b) test whether the primary topics and methods used differed between online or hybrid and in-person PhD programs. A secondary goal was to introduce the reader to modern text-mining approaches to generate insights from a document corpus. Methods: Our database consisted of 2,027 dissertation abstracts published between 2015 and 2019. We used a structural topic modeling text-mining approach to explore PhD students’ research topics and methods in United States-based doctoral nursing programs. Results: We identified 24 different research topics representing a wide range of research activities. Most of the research topics identified did not differ in prevalence between online/hybrid and in-person programs. However, online/hybrid programs were more likely to engage students in research focused on nursing education, professional development, work environment, simulation, and qualitative analysis. Pediatrics, sleep science, older adults and aging, and chronic disease management were more prevalent topics in in-person-only programs. Discussion: The range of topics identified highlights the breadth of research nursing PhD students’ conduct. Both in-person and online/hybrid programs offer a range of research opportunities, although we did observe some differences in topic prevalence. These differences could be due to the nature of some types of research (e.g., research that requires an in-person presence) or differences in research intensity between programs (e.g., amount of grant funding or proximity to a medical center). Future research should explore why research topic prevalence may vary by program delivery. We hope that this text-mining application serves as an illustrative example for researchers considering how to draw inferences from large sets of text documents. We are particularly interested in seeing future work that might combine traditional qualitative approaches and large-scale text mining to leverage the advantages of each.

AB - Background: Few quantitative studies have documented the types of research topics most commonly employed by nursing PhD students and whether they differ by program delivery (in-person vs. online/hybrid programs). Objectives: We examined a large set of publicly available PhD dissertation abstracts to (a) describe the relative prevalence of different research topics and methods and (b) test whether the primary topics and methods used differed between online or hybrid and in-person PhD programs. A secondary goal was to introduce the reader to modern text-mining approaches to generate insights from a document corpus. Methods: Our database consisted of 2,027 dissertation abstracts published between 2015 and 2019. We used a structural topic modeling text-mining approach to explore PhD students’ research topics and methods in United States-based doctoral nursing programs. Results: We identified 24 different research topics representing a wide range of research activities. Most of the research topics identified did not differ in prevalence between online/hybrid and in-person programs. However, online/hybrid programs were more likely to engage students in research focused on nursing education, professional development, work environment, simulation, and qualitative analysis. Pediatrics, sleep science, older adults and aging, and chronic disease management were more prevalent topics in in-person-only programs. Discussion: The range of topics identified highlights the breadth of research nursing PhD students’ conduct. Both in-person and online/hybrid programs offer a range of research opportunities, although we did observe some differences in topic prevalence. These differences could be due to the nature of some types of research (e.g., research that requires an in-person presence) or differences in research intensity between programs (e.g., amount of grant funding or proximity to a medical center). Future research should explore why research topic prevalence may vary by program delivery. We hope that this text-mining application serves as an illustrative example for researchers considering how to draw inferences from large sets of text documents. We are particularly interested in seeing future work that might combine traditional qualitative approaches and large-scale text mining to leverage the advantages of each.

KW - doctoral education

KW - nursing science

KW - text mining

UR - http://www.scopus.com/inward/record.url?scp=85137124998&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85137124998&partnerID=8YFLogxK

U2 - 10.1097/NNR.0000000000000604

DO - 10.1097/NNR.0000000000000604

M3 - Article

C2 - 35583448

AN - SCOPUS:85137124998

SN - 0029-6562

JO - Nursing research

JF - Nursing research

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Dissertation Topics

Updated on
Apr 24, 2023

The final step in a PhD or Master’s course is the submission of a dissertation . A dissertation is a research paper that summarises the research conducted and includes findings either on a question or a topic chosen by the student. It is important as it demonstrates a student’s knowledge of the subject and ability to use research methods to define a topic. Students are required to select a dissertation topic of their choice. Choosing a topic can be confusing so this blog helps you understand how to narrow down a dissertation topic and provides a list of dissertation topics in various disciplines.

This Blog Includes:

Empirical dissertation, non-empirical dissertation, different types of research methods for dissertation, how to choose a dissertation topic, list of dissertation topics subject-wise, economics dissertation topics, mba dissertation topics, medical dissertation topics, arts and humanities dissertation topics, law dissertation topics, science dissertation topics, social science dissertation topics, psychology dissertation topics, dissertation topics in education, what makes a good dissertation topic, types of dissertation.

There are mainly two types of dissertations- empirical and non-empirical. The choice of the dissertation depends mainly on your field of study.

An empirical dissertation involves collecting data and researching through methods where conclusions of the study are strictly drawn from concretely empirical evidence, and therefore “verifiable” evidence. It focuses on collecting and analyzing original data. Students can conduct research using qualitative and quantitative research methods like case studies, surveys, observation, laboratory experiments, and interviews. Empirical research tests hypotheses in order to arrive at valid research outcomes and assumptions are tested.

A non-empirical dissertation involves the use of theoretical data and working with existing research or other texts, presenting original analysis, and argumentation, but there is no original data. It focuses more on theories, methods, and their implications for educational research. Non-empirical research theorizes the logical assumptions of research variables and assumptions are entirely theorized.

Also Read: Dissertation Topic in Finance

Two types of primary research for the dissertation include qualitative and quantitative research methods:

Quantitative Research Methods gather information through numerical data. It is used to quantify opinions, behaviors, or other defined variables. It can be used to study a large group of people. The information is gathered by performing statistical, mathematical, or computational techniques. Examples of quantitative research methods include surveys, experimental research, correlational research, longitudinal study, cross-sectional, causal-Comparative research, descriptive research, etc
Qualitative research methods gather non-numerical data. It is used to find meanings, opinions, or underlying reasons from its subjects. It is associated with studying human behavior from an informative perspective. It aims at obtaining in-depth details of the problem. Examples of qualitative research methods include case studies, Observational methods, one-on-one interviews, focus groups, text analysis, etc
Mixed method research is where quantitative and qualitative methods of research are combined

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251+ Life Science Research Topics [Updated]
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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
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Theses/Dissertations from 2020. Understanding the Role of Cereblon in Hematopoiesis Through Structural and Functional Analyses, Afua Adutwumwa Akuffo. To Mid-cell and Beyond: Characterizing the Roles of GpsB and YpsA in Cell Division Regulation in Gram-positive Bacteria, Robert S. Brzozowski.
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Writing the Winning Thesis or Dissertation by William A. (Arthur) Rouse; Randy L. Joyner; Allan A. Glatthorn The classic guide for master's and doctoral students--newly revised and updated! Used in its first two editions by tens of thousands of students, this practical book demystifies the process of writing your master's thesis or doctoral dissertation, taking you through the process one step ...
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A list of research topics on Natural Science for undergraduate, master, and doctoral students to write dissertations. 44-20-8133-2020. [email protected]; Toggle navigation Dissertation-Help.Uk. ... also called physical science, life science, biological science, and Earth science, encompasses the systematic study of the material ...
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Search within this Collection: 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 sponsors and collaborators and industrial partners. This material is presented to ensure timely dissemination of scholarly and technical work.
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Step 5: Narrow down, then evaluate. By this stage, you should have a healthy list of research topics. Step away from the ideation and thinking for a few days, clear your mind. The key is to get some distance from your ideas, so that you can sit down with your list and review it with a more objective view.
How to Choose a Dissertation Topic
The timeframe of your dissertation. The relevance of your topic. You can follow these steps to begin narrowing down your ideas. Table of contents. Step 1: Check the requirements. Step 2: Choose a broad field of research. Step 3: Look for books and articles. Step 4: Find a niche. Step 5: Consider the type of research.
Theses & Certificates
The Master's thesis must not be handed in later than six months after your thesis issue date. In case of part-time study programs, different deadlines apply in accordance with the respective FPSO. Example Bachelor: Start issue date of the thesis May 1, latest submission date August 1. Example Master: Start issue date of the thesis October 9 ...
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Research Topic For Life Science 2023. Sr. No. Research Topic. Check Thesis. 1. Purification and characterization of adult brugia malayiantigen identification and immunprophylactic evaluation of protective molecules. Download. 2. Incidence of hiv positivity in cases of malignancy.
Dissertation Topics in Nursing
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This Dissertation Committee's approval will be based on the appropriateness of the abstract of the planned study to the science of nursing and the match between the School of Nursing faculty and the student's research topic. See Policy 227 for more information.
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The Online Writing Lab at Purdue University houses writing resources and instructional material, and we provide these as a free service of the Writing Lab at Purdue.

251+ Life Science Research Topics [Updated]

What is research in life science?

251+ Life Science Research Topics: Category Wise

Biotechnology and Bioengineering

Ecology and Environmental Biology

Neuroscience and Cognitive Science

Evolutionary Biology

Cell Biology and Physiology

Microbiology and Immunology

Biomedical Research and Clinical Trials

Emerging Technologies and Innovations

Ethical, Legal, and Social Implications (ELSI) in Life Sciences

Public Health and Epidemiology

Plant Biology and Agriculture

Bioinformatics and Computational Biology

Toxicology and Environmental Health

Aquatic Biology and Oceanography

Social and Behavioral Sciences in Health

Bioethics and Biomedical Ethics

Forensic Science and Criminalistics

Nutrition and Dietary Science

Entomology and Insect Biology

Zoology and Animal Biology

Biochemistry and Molecular Biology

Cancer Biology and Oncology

Developmental Biology and Embryology

Pharmacology and Drug Discovery

Stem Cell Research

What Are The 10 Examples of Life Science Research Paper Titles?

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Marine Biology Research Topics

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Zoology Research Topics

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