Biomedical Sciences, BSc

Biomedical Sciences, BSc

Introduction

The primary goal of Biomedical Science is to enhance understanding of human body function in health and disease.

Study Information

At a Glance

Learning Mode
On Campus Learning
Degree Qualification
BSc
Duration
48 months
Study Mode
Full Time
Start Month
September
Location of Study
Aberdeen
UCAS Code
B900

Our BSc Biomedical Sciences programme offers a comprehensive journey through the fascinating world of human biology and disease processes. This four-year degree provides a carefully structured progression from foundational sciences to cutting-edge research. As you advance, you'll develop a deep understanding of biomedical principles, critical thinking skills, and research expertise. Each year builds upon the last, offering increasing specialisation and hands-on learning opportunities, preparing you for a thriving career in this dynamic field

In your first year, you'll build a strong foundation in the basic sciences, diving into chemistry, cell biology, and gaining an introduction to medical sciences. This groundwork prepares you for more advanced studies in subsequent years.

Moving into your second year, you'll deepen your knowledge of human physiology and molecular biology. You'll also develop essential research skills for medical sciences, equipping you with the tools to engage in scientific inquiry.

Your third year, known as Junior Honours, sees you engaging with advanced topics in biomedical sciences. You'll explore areas such as neuroscience and molecular cell function, with options to specialise in fields like anatomy or pharmacology. This year allows you to start tailoring your degree to your specific interests.

In your final year, Senior Honours, you'll have the opportunity to conduct independent research projects and study specialized topics that align with your career aspirations. Alternatively, you may choose to undertake an industrial placement, gaining valuable hands-on experience in a professional setting.

Throughout the programme, you'll have the flexibility to shape your degree through a range of optional courses and specialisation pathways, ensuring your education aligns with your personal and professional goals.

Enhance your degree with a year-long industry placement, graduating with an 5-year MSci degree in Biomedical Sciences after five years.

What You'll Study

Year 1

Compulsory Courses

Getting Started at the University of Aberdeen (PD1002)

This course, which is prescribed for level 1 undergraduate students and articulating students who are in their first year at the University, is studied entirely online, is studied entirely online, takes approximately 2-3 hours to complete and can be taken in one sitting, or spread across the first 4 weeks of term.

Topics include University orientation overview, equality & diversity, MySkills, health, safety and cyber security, and academic integrity.Successful completion of this course will be recorded on your Transcript as ‘Achieved’.

Chemistry for the Life Sciences 1 (CM1020)

15 Credit Points

This course covers the foundations of chemistry that underpin the life sciences at a molecular level and is suitable for students with different backgrounds including little or no previous study of chemistry. The basic concepts of quantitative chemistry will be covered, along with the different types of organic molecules, acids and bases, and the principles of kinetics and thermodynamics. The relevance of the course materials to life science is emphasised throughout.

Laboratory classes introduce important practical techniques, with experiments that reinforce and complement the taught material.

The course will allow students to continue with other chemistry courses as part of their enhanced study by providing discipline breadth.

Introduction to Medical Sciences (SM1001)

15 Credit Points

  • Topics covered in this course span medical science through the ages; from ancient civilizations to the modern day science of genomics and synthetic biology.
  • Alongside lecture material, in depth practical classes will cover biomedical measurement techniques, forensic science and a research-based mini project.
  • Overall, this course is a journey through some of the key milestones that underpin the discipline of medical science we see today.
Chemistry for the Life Sciences 2 (CM1512)

15 Credit Points

Chemistry plays a vital role in the life sciences, explaining the properties of biomolecules and how biological processes work at a molecular level. Organic reaction mechanisms give insight into how different types of molecules can be synthesised and methods of chemical analysis introduce other important topics linking the chemical and life sciences. The relationship between energy, entropy and equilibrium in driving reactions will be covered and the course concludes with a survey of the molecules of life – proteins, enzymes and sugars.

Laboratory classes complement lectures by consolidating learning and developing problem-solving and hands-on practical skills.

The Cell (SM1501)

15 Credit Points

• Cells are the fundamental unit of life – without them life could not exist, and as such understanding how they function is crucial to our understanding of biology and medical science.• This course provides theoretical knowledge in a diverse range of topics covering the fascinating world of cells, from molecules like DNA, to how different cell types function within our bodies.• All practical classes are research based and will provide theoretical knowledge and skills training in many areas of molecular and cell biology.• Employability skills will also be explored through a highly interactive enterprise session and our online mini course.

Year 2

Compulsory Courses

Students wishing to follow the BSc Biomedical Sciences (Anatomy) route must also take BM2009 Human Anatomy A and BM2509 Human Anatomy B

Physiology of Human Cells (BI20B2)

15 Credit Points

  • Physiology is the science of understanding life. It allows you to explore and understand why your body does what it does and how it does it;
  • This introductory physiology course explores living processes at the level of cells and molecules;
  • The course lays down many of the fundamental concepts of physiology required to appreciate advanced study of many of the medical science disciplines;
  • You will gain practical experience and understanding of electrophysiological techniques required for the study of electrically excitable tissues, like nerves and muscle;
  • You will also gain valuable experience in the key skill of writing formal scientific reports
Molecular Biology of the Gene (BI20M3)

15 Credit Points

  • this course will provide a comprehensive understanding of how genetic information is stored, how it is accessed by the cell to form functional proteins and how the release of this information is controlled to produce a healthy human child;
  • understanding this process is essential to understanding the basis of human disease and the course will examine how genetic differences affect disease susceptibility;
  • this popular, comprehensive and cutting edge course will equip students with the essential knowledge, skills and confidence in molecular biology required to progress on all courses undertaken in the School of Medical Sciences
Foundation Skills for Medical Sciences (SM2001)

15 Credit Points

  • this course is the cornerstone to all the advanced science courses in later years and provides you with key skills for success in science;
  • feedback from employers drove the course design to give specific and focused science skills to enhance your employability;
  • numerical, analytical, data interpretation, experimental design and problem solving skills are core elements that are essential for any graduate career portfolio;
  • this course and the additional specifically developed online resources have been commended by employers and students alike.

Physiology of Human Organ Systems (BI25B2)

15 Credit Points

  • The Physiology of Human Organ Systems course aims to develop and integrated understanding of human organ structure and function through:

    • innovative teaching approaches covering the digestive, cardiovascular, respiratory, renal and reproductive systems

    • participation in practical classes where students act as subjects and investigators. These will reinforce lecture material, develop scientific acumen and build team working skills

    • focussed and interactive problem solving sessions applying knowledge to clinical scenarios, and developing fundamental skills critically required in the final years of the degree;

    • informal teaching sessions where one-to-one staff-student interactions encourage discussion in a non-threatening environment

Energy for Life (BI25M7)

15 Credit Points

  • understanding the fundamental workings of cells is important to a wide range of scientific disciplines;
  • this course integrates the key metabolic and biochemical processes that underpin human, animal and plant life in relation to health and disease;
  • this core knowledge prepares you for more advanced study in all areas of life sciences and has wide ranging applications;
  • you will also participate in an award winning practical series focussed on drug discovery which will build essential employability skills in experimental design, data analysis and practical laboratory skills
Research Skills for Medical Sciences (SM2501)

15 Credit Points

  • this course cultivates literature research skills, building confidence in team-working and communication through scientific writing and seminar presentation;
  • it encourages student-led learning and organisation in researching a topic on human health or disease of your own choice, with tutors providing guidance;
  • you will learn to use online and library resources to search for information from primary research articles and relay that information in the form of a written report and a Powerpoint presentation to peers and academic tutors;
  • these are all fundamental skills for scientific researchers, but are also transferrable talents for many other career pathways
Year 3

Compulsory Courses

Only students following the Biomedical Sciences (Anatomy) must take:

  • AN3009 - Architecture of Life
  • AN3301 - Human Embryonic Development
  • AN3504 - Human Movement Dissected
  • PY3803 - Epithelial Physiology

Students undertaking BSc Biomedical Sciences who are not following Anatomy will not study these as mandatory courses.

Please note course BT3006 Working Out? Placement & Career Skills is an optional course but must be taken if you wish to undertake a placement.

Frontiers of Biomedical Sciences (SM3002)

30 Credit Points

  • this course covers many of the core concepts which form the foundations for advanced study in Biomedical and related sciences;
  • you will gain cutting edge, in-depth and focussed knowledge of cell function and cell signalling delivered in a research-driven environment in preparation for advanced study of similar material in the honours year;
  • you will research a topic of choice and prepare a scientific review in a similar fashion to academic staff;
  • problem solving exercises designed to illustrate the application of your knowledge in the wider world and advanced laboratory techniques are interwoven strands aimed at developing graduate attributes and employability
Working Out? Placement & Career Skills (BT3006)

5 Credit Points

  • A pre-requisite for all students intending to apply for a year’s industrial placement.
  • This course covers the skills necessary to complete placement applications by exploring CV preparation, writing covering letters, completing application forms, identification of your skill sets and good interview technique.
  • The course will prepare you for the workplace by making you aware of general employability skills and by helping you identify your own transferable skills.
Neuroscience and Neuropharmacology (BM3502)

15 Credit Points

  • during this course, you will start to appreciate why the diagnosis and treatment of various neurological and psychiatric disorders is both an art and a science;
  • students will use real-life examples from case studies to help develop and demonstrate their knowledge and understanding;
  • practical classes will enhance students understanding of why developing new neuropharmaceuticals is challenging and will improve their laboratory and analytical skills;
  • this course will help students understand why multidisciplinary teams are essential in improving our understanding and treatment of neurological and psychological disorders;
  • this course will improve your problem-solving, scientific writing, practical and data handling skills
Neuroscience Research Topics (BM3804)

15 Credit Points

  • the course outlines structural and functional alterations occurring in neuronal tissue during development, in the adult and in disease states;
  • the course aims to identify and explain the mechanisms underlying these events and to provide an understanding of their functional consequences by building on the expertise of neuroscience researchers;
  • you will gain cutting edge, in depth knowledge of nervous system development, function and the pathology of specific disease states affecting the nervous system;
  • wider transferrable skills will be gained, such as scientific writing, problem solving, and practical assessment of nervous system function, thus developing graduate attributes and skills for employability
The Molecular Control of Cell Function (BC3503)

30 Credit Points

This Biochemistry course focuses on the role of proteins in cells, tissues and organisms. It covers topics such as the role of proteins in catalysis of enzymatic reactions, in cell signalling, cell-cell interaction and cell shape and movement, and touches on the critical roles of selected proteins in human health. Teaching is delivered by a combination of lectures, workshops and practicals.

Architecture of Life (AN3009)

15 Credit Points

  • this course will equip you with key micro-anatomical principles and concepts that underpin human form and function;
  • you will study the intricacies of cellular and extracellular components; how these combine structurally and functionally to form a coherent organ, and how they are altered in disease;
  • you will learn through structured practical classes, which form the core element of this course, lectures, tutorials and online histology packages;
  • the course will equip you with key generic microscopical, analytical, problem-solving and transferable skills, aimed at developing graduate attributes, to provide a solid foundation for further study in the biomedical sciences
Human Embryonic Development (AN3301)

15 Credit Points

  • this course provides a broad overview of the fundamental processes underpinning transformation of a single fertilised egg into a fully functioning individual;
  • you will gain in depth and cutting edge knowledge on the major patterning and morphogenetic processes essential for establishing the body plan, major organ systems and causes of birth differences;
  • this core knowledge is directly relevant and will prepare you for more advanced studies in all areas of Life Sciences, including Anatomy, Developmental Biology, Physiology and Neuroscience;
  • wide transferable and employability skills, including problem solving and presentation practice, are a core component of the course
Human Movement Dissected (AN3504)

15 Credit Points

  • This course will give you an in-depth understanding of the human musculoskeletal system, how it produces movements of the body and how it can be affected by injury and disease.
  • You will gain hands-on experience of human dissection, imaging techniques and image analysis.
  • You will learn which information can, and cannot, be obtained using different imaging techniques.
  • You will obtain transferrable skills, including problem-solving and presentation practice.
  • The course is taught jointly by basic scientists, clinicians and technicians.
Epithelial Physiology (PY3803)

15 Credit Points

  • This advanced course explores the essential role of epithelial cells in renal, gastrointestinal and respiratory function;
  • You will gain valuable practical experience and understanding of the electrophysiological techniques required for study of epithelial transport;
  • You will develop your writing, data analysis and reporting skills with the production of a detailed practical report;
  • You will hone your critical analysis skills for the interpretation of published scientific material;
  • You will prepare a presentation on a selected scientific paper, deliver it during a class-led symposium on cutting edge epithelial physiology research

Optional Courses

Select two optional courses.

Architecture of Life (AN3009)

15 Credit Points

  • this course will equip you with key micro-anatomical principles and concepts that underpin human form and function;
  • you will study the intricacies of cellular and extracellular components; how these combine structurally and functionally to form a coherent organ, and how they are altered in disease;
  • you will learn through structured practical classes, which form the core element of this course, lectures, tutorials and online histology packages;
  • the course will equip you with key generic microscopical, analytical, problem-solving and transferable skills, aimed at developing graduate attributes, to provide a solid foundation for further study in the biomedical sciences
Human Movement Dissected (AN3504)

15 Credit Points

  • This course will give you an in-depth understanding of the human musculoskeletal system, how it produces movements of the body and how it can be affected by injury and disease.
  • You will gain hands-on experience of human dissection, imaging techniques and image analysis.
  • You will learn which information can, and cannot, be obtained using different imaging techniques.
  • You will obtain transferrable skills, including problem-solving and presentation practice.
  • The course is taught jointly by basic scientists, clinicians and technicians.
Biochemical Pharmacology and Toxicology (PA3004)

30 Credit Points

  • Biochemical pharmacology and toxicology is a broad ranging course covering many fundamental aspects of pharmacology. It lays appropriate foundations upon which advanced Pharmacological understanding is developed.
  • Key aspects are: - critical concepts of pharmacological and toxicological relevance are covered in-depth at a molecular and biochemical level, with the ultimate significance to the human organism also studied- a modern and relevant practical thread (partly funded by the British Pharmacological Society) permits application of lecture materials, and enhances employability through development of relevant core practical skills- research-led special topics are also embedded where the materials studied are put in context through teaching driven by recent medical research discoveries
The Molecular Biology of The Cell (MB3006)

30 Credit Points

  • a course detailing for the first time how a cell really works; we reveal and explain how cell biology is governed by a cell's molecular biology and biochemistry;
  • a course placing a high value on its teaching and learning; all lecture material supported by non-assessed workshops – your chance to team-work, ask questions and enjoy the science;
  • contains an extended research practical; you carry out lab research to understand how cells responds to starvation stress, and write up in research paper format;
  • we teach how to access the scientific literature and write successful essays, preparing you for Honours year
Integrative Physiology (PY3002)

30 Credit Points

  • this course integrates advanced physiological knowledge using examples from four different organ systems to help explain how these systems interact in health and disease;
  • use of real-life clinical examples, diagnostic test data and a literature-based research project facilitates an enquiry and interest-based learning experience;
  • with an aging population and ever-increasing number of people with complex diseases, you will appreciate why understanding how organs interact is the key to improving the diagnosis and treatment of various disorders;
  • state-of-the-art practical classes measuring physiological functions delivers hands-on science and clinically-related skills to develop professional preparation and knowledge-based practice
Human Embryonic Development (AN3301)

15 Credit Points

  • this course provides a broad overview of the fundamental processes underpinning transformation of a single fertilised egg into a fully functioning individual;
  • you will gain in depth and cutting edge knowledge on the major patterning and morphogenetic processes essential for establishing the body plan, major organ systems and causes of birth differences;
  • this core knowledge is directly relevant and will prepare you for more advanced studies in all areas of Life Sciences, including Anatomy, Developmental Biology, Physiology and Neuroscience;
  • wide transferable and employability skills, including problem solving and presentation practice, are a core component of the course
Principles of Developmental and Reproductive Biology (DB3006)

15 Credit Points

  • course covers many of the core concepts and processes which are essential for advanced study in Biomedical and related sciences;
  • you will gain cutting edge, in depth and focussed knowledge of embryological techniques, tools and their practical applications, and the fundamental principles of reproductive biology delivered in a research-driven environment;
  • this course will prepare you for advanced study of developmental biology and human embryology;
  • practicals are designed to provide a 3D understanding of embryology as well as an in-depth study of a model organism, providing transferrable skills as problem solving and web page/blog design,further developing graduate attributes and employability
Epithelial Physiology (PY3803)

15 Credit Points

  • This advanced course explores the essential role of epithelial cells in renal, gastrointestinal and respiratory function;
  • You will gain valuable practical experience and understanding of the electrophysiological techniques required for study of epithelial transport;
  • You will develop your writing, data analysis and reporting skills with the production of a detailed practical report;
  • You will hone your critical analysis skills for the interpretation of published scientific material;
  • You will prepare a presentation on a selected scientific paper, deliver it during a class-led symposium on cutting edge epithelial physiology research
Cardiovascular Physiology and Pharmacology (BM3501)

15 Credit Points

  • cardiovascular disease is the leading cause of death worldwide. Using teaching informed by high-quality research this course provides a comprehensive understanding of cardiovascular physiology and pathophysiology;
  • you will learn how the knowledge of physiological processes is directed into identifying drugs targets for disease, which will improve your understanding of drug discovery;
  • insight into the molecular and cellular action of drugs in the cardiovascular system will prepare you for your final year research project;
  • wider transferable skills include problem solving, data interpretation and training in the ethical and safety aspects of recruiting human subjects in research.
Mechanisms of Disease and Principles of Chemotherapy (PA3802)

15 Credit Points

The course is designed to give the students a basic understanding of the mechanisms of disease.

  • by understanding the process of a disease we can find ways of both treating it and/or preventing it;
  • this course uses the examples of cancer, infectious disease and inflammatory disease to illustrate this;
  • the factors leading to or causing the disease will be described;
  • using this knowledge the way in which the drugs used to treat the disease work will be discussed;
  • problems that arise from drug treatment such as drug resistance will also be covered
The Molecular Control of Cell Function (BC3503)

30 Credit Points

This Biochemistry course focuses on the role of proteins in cells, tissues and organisms. It covers topics such as the role of proteins in catalysis of enzymatic reactions, in cell signalling, cell-cell interaction and cell shape and movement, and touches on the critical roles of selected proteins in human health. Teaching is delivered by a combination of lectures, workshops and practicals.

Molecular Microbiology (MC3504)

30 Credit Points

  • this course provides core information to prepare you for advanced studies in the areas of molecular microbiology and infectious diseases;
  • in depth knowledge will be provided for the advanced study of microbes and their impact on all areas of life and society;
  • you will participate in a practical that provides you with an insight into a real-life research project providing skills in experimental design, data analysis, practical laboratory skills and research publication;
  • wider transferrable skills including problem solving and data interpretation are aimed at developing graduate attributes and employability
Genetics (GN3502)

30 Credit Points

  • this is a comprehensive course, providing an essential foundation for all advanced studies in Genetics, Chromosome Biology and Molecular Biology;
  • the principles of molecular genetics and population genetics will be covered, with an emphasis on their application to the understanding of human biology. The teaching material will integrate information arising from the recent explosion of genome sequence data, equipping students with the necessary skills to engage with this rapidly developing field;
  • a wide range of transferable skills are embedded within the course, including problem-solving, critical analysis of research materials, essay writing and subject-specific laboratory and computational skills;
Year 4

Compulsory Courses

Only students following the Biomedical Sciences (Anatomy) must take:

  • AN4003 - Brain Function and Malfunction (with Anatomy)
  • AN4301 - Developmental Neuroscience (with Anatomy)
Medical Sciences Honours Research Project (SM4501)

60 Credit Points

  • Final year Honours project offers an excellent opportunity to carry out cutting-edge literature or lab-based scientific research.
  • With projects from disciplines throughout the School of Medicine, Medical Science and Nutrition to choose from, this is an opening to follow your interests working with staff and leading researchers.
  • The project forms the zenith of your degree and fosters development of the skills and knowledge gained throughout your degree, as well as heightening analytical and critical thinking abilities.
  • The opportunity to be part of a novel, yet-to-be published research project can be career-defining and provides experience to prepare you for the future.
Medical Science Data Analysis Paper (SM4901)

Data Analysis examination paper exclusively for students taking Medical Science degree programmes.

Medical Science General Essay Paper (SM4902)

General Essay examination paper exclusively for students taking Medical Science degree programmes.

Brain Function and Malfunction (with Anatomy) (AN4003)

15 Credit Points

  • this course integrates advanced anatomical, physiological and neurological concepts using examples from healthy and diseased populations;
  • fundamental biomedical scientists meet with advanced clinical practitioners to facilitate an enquiry and interest based learning experience;
  • with an aging population and ever increasing number of people with complex neurological problems, you will understand why multidisciplinary teams are the key to improving the diagnosis and treatment of neurological/psychiatric disorders, and also in understanding exactly how the central nervous system works;
  • state of the art practical/dissection classes deliver hands on science and clinical skills to develop professional preparation and knowledge based practice
Developmental Neuroscience (with Anatomy) (AN4301)

15 Credit Points

Ever wondered where your brain comes from?

This course merges cutting edge developmental biology, neuroscience, and cellular physiology to describe how the nervous system arises and gets "wired up".

The bewildering arrays of cells in the nervous system interconnect in highly specific ways. Here you will learn what dictates neuronal cell fate, how neurons find appropriate partners and how cells communicate to generate behaviour.

In addition to lectures from dynamic researchers and anatomical dissection sessions, this course will hone core skills for basic scientists and medics through group presentation work, independent library research and scientific writing.

Optional Courses

Students who wish to process to a 5-year MSci Biomedical Sciences must undertake BT5007 Industrial Placement in Year 4.

Staying Alive - Adaptation in Physiological Systems (BM4009)

15 Credit Points

  • this course integrates knowledge of physiological systems within the context of physiological adaptation to the environment;
  • you will understand advanced physiological concepts which regulate every aspect of human survival and the life cycle;
  • our bodies also adapt to disease and you will examine the physiological changes which occur throughout several major clinical conditions including diabetes, osteoporosis and heart disease;
  • the ability to measure important physiological parameters will also be taught in interactive practical classes;
  • advanced problem solving in tutorials will provide you with the skills required to tackle complex physiological problems at a research level
The Science of Aging - from Cradle to Grave (BM4301)

15 Credit Points

  • this course integrates advanced physiological concepts across the continuum of life;
  • fundamental biomedical scientists meet with advanced clinical practitioners to facilitate an enquiry and interest based learning experience;
  • with an aging population and ever increasing number of children with complex health challenges, you will be prepared to progress along a range of careers threads and understand the dynamic interplay between individuals and their changing physiological, psychological, pharmacological and biochemical needs for lifelong health and wellbeing;
  • state of the art practical classes deliver hands on science and clinical skills to develop professional preparation and knowledge based practice
Developmental Neuroscience (PY4302)

15 Credit Points

  • ever wondered where your brain comes from?;
  • this course merges cutting edge developmental biology, neuroscience, and cellular physiology to describe how the nervous system arises and gets wired up;
  • the bewildering arrays of cells in the nervous system interconnect in highly specific ways. Here you will learn what dictates neuronal cell fate, how neurons find appropriate partners and how cells communicate to generate behaviour;
  • in addition to lectures from dynamic researchers this course will hone core skills for basic scientists and medics through group presentation work, independent library research and scientific writing
Brain Function and Malfunction (AN4002)

15 Credit Points

  • this course is the central cornerstone course for 4th year ‘Neuroscience with Psychology’ students and provides key preparation for the final year Honours project;
  • it is based on the general organisation of the human and rodent nervous systems alongside up-to-date research in the neuroscience of brain diseases;
  • a particular emphasis is given to understand malfunctions of the nervous system and their neuroanatomical, neurophysiological and neurochemical basis;
  • research approaches relevant to the causes, diagnosis and treatment of nervous system disorders are discussed
Molecular Pharmacology (PA4005)

15 Credit Points

  • this course provides topical reviews of receptor diversity, expression and signalling in the contexts of both basic science and applications in the treatments of disease and ill health;
  • modern and developing aspects of pharmacology are linked with proteomics/ genomics, therapeutics and methods of drug discovery;
  • specialist emerging aspects of molecular pharmacology including biased ligands and receptor trafficking and their role in disease will be studied in detail;
  • in addition to lectures the course includes advanced data analysis-based tutorials and data presentation which will enhance transferable skills and add to graduate portfolios
Current Topics in Pharmacological Research (PA4303)

15 Credit Points

The course aims to develop an understanding of pharmacological targeting and molecular toxicology at an advanced level. The learning outcomes are:

  • To gain knowledge of drug-induced toxicity including organ specific toxicity, oxidative stress and the role of drug transport
  • To develop advanced understandings of the processes surrounding pharmacological drug design and molecular targeting using specific examples
  • To develop knowledge of the processes involved in cell death including apoptosis, autophagy and necrosis
  • To enhance understanding of the use of biomarkers in pharmacology and toxicology
  • To develop advanced knowledge of molecular carcinogensis (genotoxic and non-genotoxic)
Honours Biochemistry - Option 1 (BC4014)

15 Credit Points

  • ability to describe using examples the structure of membrane receptors;
  • understand the various ways in which receptor proteins transmit information from the extra-cellular environment to their intracellular site of action;
  • describe how cross-talk between different signalling pathways can be achieved;
  • understand how signalling pathways are structured and compartmentalised within the cell;
  • understand the scientific methods used to study receptors and signalling pathways;
  • the role of cell signalling in health and disease
Honours Biochemistry - Option 2 (BC4314)

15 Credit Points

  • This course provides an advanced insight into molecular events that ultimately lead to cancer. It covers the mechanisms that prevent cancer by for example ensuring genome stability, and how events such as viral infections can interfere with these mechanisms and promote cancer formation. In addition, the course provides insight into stem cell biology and its applications. Teaching will be delivered through a combination of lectures, workshops and tutorials.
Honours Advanced Molecular Biology (MB4050)

30 Credit Points

This course covers four main areas of advanced research-led molecular biology:

• Genome Organisation and Analysis• Proteins: Structure, Function and Engineering• Control of Gene Expression• Advanced Molecular Techniques

The course also teaches you about the scientific methods and discoveries that lie behind the above topics and covers detailed examples from the current scientific literature.

Industrial Placement (BT5007)

120 Credit Points

  • an industrial placement allows students to experience workplace culture and makes them more effective employees following graduation;
  • placements vary considerably but in general terms, students are placed in an industrial, commercial or research environment where they obtain a breadth of practical experience to complement their degree programme;
  • students are employed by their host company and can expect to work a normal 40 hour week, possibly on a number of projects, over a full calendar year;
  • tutorial assistance from a member of the University academic staff is available via email and / or telephone throughout the year

We will endeavour to make all course options available. However, these may be subject to change - see our Student Terms and Conditions page.

How You'll Study

Assessment Methods

Students are assessed by any combination of three assessment methods:

  • coursework such as essays and reports completed throughout the course;
  • practical assessments of the skills and competencies they learn on the course; and
  • written examinations at the end of each course.

The exact mix of these methods differs between subject areas, years of study and individual courses.

Honours projects are typically assessed on the basis of a written dissertation.

Why Study Biomedical Sciences?

Why Biomedical Sciences

  • The programmes provide you with the scientific content of pre-clinical medicine plus the opportunity to study cellular processes from this whole-body perspective.
  • You will gain a thorough grounding in the core medical sciences and a specialism chosen from Anatomy, Developmental Biology, Molecular Biology, Pharmacology, Physiology.
  • Biomedical scientists in Aberdeen have made major medical advances, including co-discovery of insulin (receiving a Nobel Prize) and discovery of the brain's morphine-like chemicals.
  • You will acquire core skills and knowledge vital to the modern workplace which will also provide you with the ideal training for progress to graduate programmes in medical research, medicine, dentistry and other healthcare professions.
  • Modern teaching facilities and laboratories which will enhance your learning and provide you with an opportunity to experience working in a research focussed laboratory environment.
  • We are ranked 2nd in the UK for Anatomy and Physiology, The Times & Sunday Times Good University Guide 2025.

Aberdeen Global Scholarship

The University of Aberdeen is delighted to offer eligible self-funded international on-campus undergraduate students a £6,000 scholarship for every year of their programme.

View the Aberdeen Global Scholarship

Entry Requirements

Qualifications

The information below is provided as a guide only and does not guarantee entry to the University of Aberdeen.


General Entry Requirements

2024 Entry

SQA:

Applicants who achieve AAAB or better over S4 and S5 are likely to be made an offer of admission. This may be unconditional or it may be conditional, dependent upon academic profile. Good performance in additional Highers/Advanced Highers may be required.

Highers at AB from Chemistry and another Maths/Science subject required (Biology preferred)

A Level:

A minimum of 3 A Levels at ABB.

A levels at AB from Chemistry and another Maths/Science subject required (Biology preferred)

International Baccalaureate:

A minimum of 34 points. 6 points at HL from Chemistry and another Maths/Science subject required (Biology preferred)

Irish Leaving Certificate:

Five subjects at Higher, with 4 at H2 and 1 at H3. H2 from Chemistry and another Maths/Science subject required (Biology preferred)

2025 Entry

SQA:

Applicants who achieve AAAB or better over S4 and S5 are likely to be made an offer of admission. This may be unconditional or it may be conditional, dependent upon academic profile. Good performance in additional Highers/Advanced Highers may be required.

Highers at AB from Chemistry and another Maths/Science subject required (Biology preferred)

Minimum: ABBB

Applicants who have achieved BBB at Higher, and who meet one of the widening participation criteria above are encouraged to apply and are guaranteed an adjusted conditional offer for BSc Biomedical Science.

We would expect to issue a conditional offer asking for one additional A grade at Higher. In exceptional circumstances we may need to ask for two additional Highers at AA. 

Adjusted: BBB

Applicants who have achieved BB at Higher, and who meet one of the widening participation criteria above are encouraged to apply and are guaranteed an adjusted conditional offer for MA, BSc and BEng degrees.

We would expect to issue a conditional offer asking for one additional C grade at Higher.

A Level:

A minimum of 3 A Levels at ABB.

A levels at AB from Chemistry and another Maths/Science subject required (Biology preferred)

International Baccalaureate:

A minimum of 34 points. 6 points at HL from Chemistry and another Maths/Science subject required (Biology preferred)

Irish Leaving Certificate:

Five subjects at Higher, with 4 at H2 and 1 at H3. H2 from Chemistry and another Maths/Science subject required (Biology preferred)

The information displayed in this section shows a shortened summary of our entry requirements. For more information, or for full entry requirements for Sciences degrees, see our detailed entry requirements section.


English Language Requirements

To study for an Undergraduate degree at the University of Aberdeen it is essential that you can speak, understand, read, and write English fluently. The minimum requirements for this degree are as follows:

IELTS Academic:

OVERALL - 6.0 with: Listening - 5.5; Reading - 5.5; Speaking - 5.5; Writing - 6.0

TOEFL iBT:

OVERALL - 78 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21

PTE Academic:

OVERALL - 59 with: Listening - 59; Reading - 59; Speaking - 59; Writing - 59

Cambridge English B2 First, C1 Advanced or C2 Proficiency:

OVERALL - 169 with: Listening - 162; Reading - 162; Speaking - 162; Writing - 169

Read more about specific English Language requirements here.

Fees and Funding

Please refer to our Tuition Fees page for fee information for this programme, or contact study@abdn.ac.uk.

Additional Fees

  • In exceptional circumstances there may be additional fees associated with specialist courses, for example field trips. Any additional fees for a course can be found in our Catalogue of Courses.
  • For more information about tuition fees for this programme, including payment plans and our refund policy, please visit our Tuition Fees page.

Scholarships and Funding

UK Scholarship

Students from England, Wales and Northern Ireland, who pay tuition fees may be eligible for specific scholarships allowing them to receive additional funding. These are designed to provide assistance to help students support themselves during their time at Aberdeen.

Aberdeen Global Scholarship

The University of Aberdeen is delighted to offer eligible self-funded international on-campus undergraduate students a £6,000 scholarship for every year of their programme. More about this funding opportunity.

Funding Database

View all funding options in our Funding Database.

Careers

he Biomedical Sciences degree primarily prepares you to follow a broad range of careers in science relating to medicine. In this respect, the quality of your training will permit you to take advantage of international career opportunities in research and development. The degree can also form the basis for an application to enter Medicine or Dentistry.

Our degree programmes are built to enhance your employability and three flagship options give our degrees a distinctively different flavour from many others. All our degrees offer:

  • A 10-week full-time research project in the final year which will provide you with valuable experience of working in a medical science research environment
  • The option of an industrial placement year and graduation with an undergraduate MSci
  • Highly relevant and sought after experience in bio-business aimed at giving you an understanding of the commercialisation of scientific ideas and an opportunity to learn about the biotechnology and pharmaceutical industries

The BSc Biomedical Sciences degree is not accredited by the Institute of Biomedical Sciences (IBMS) and thus our graduates do not achieve their HPC registration at graduation, but instead, if they choose this career path, will gain it following an additional conversion course within hospital laboratories.

Our Experts

Other Experts
Professor Simon Parson
Dr Flora Groening
Programme Coordinator
Dr Ann Rajnicek

Information About Staff Changes

You will be taught by a range of experts including professors, lecturers, teaching fellows and postgraduate tutors. However, these may be subject to change - see our Student Terms and Conditions page.

Facilities

Image for The Institute of Medical Sciences
The Institute of Medical Sciences

The Institute of Medical Sciences

Focused on developing future effective therapies, the Institute of Medical Sciences houses nearly 400 researchers and support staff working on cutting-edge biomedical subjects aimed at understanding the human body's response to infection and disease.

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Science Teaching Hub

Science Teaching Hub

Our state-of-the-art Science Teaching Hub provides students with a digitally focussed environment including advanced analytical tools, research-grade equipment and flexible laboratory spaces.

Find out more

Discover Uni

Discover Uni draws together comparable information in areas students have identified as important in making decisions about what and where to study. You can compare these and other data for different degree programmes in which you are interested.

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