BSc (Hons) Biomedical Science

Study an accredited degree at Scotland's TOP Modern University for Biomedical Science (Biomedical Science, The Guardian University Guide 2022).

Course detail

Start Date

September

Duration

4 years (full-time)

Award Title

BSc (Hons)

UCAS Code

B901

Why study Biomedical Science?

Our Biomedical Science degree offers an exciting, fast-paced learning experience, giving you a deep understanding of the science behind human health and disease. 

Biomedical scientists conduct scientific tests to help diagnose and treat diseases and are key to keeping us alive and healthy. You’ll learn how the human body responds to disease, and how to use your knowledge to help identify them. Your skills and qualifications as a biomedical scientist will be recognised across the UK and worldwide.  

Watch the video to find out more about this fascinating course.

 

 

Conduct vitally important scientific tests

NHS Biomedical Scientists conduct vitally important scientific tests, which underpin the diagnosis and treatment of human disease. This cutting-edge scientific analysis contributes greatly to the clinical outcomes and recovery of patients.  

Practical work and training in our £3.5m science labs features throughout the course. This is combined with rigorous study of the body in health and disease at all levels - body, organ, tissue, cellular and molecular.

Taught by academic experts and clinical professionals, this wide-ranging degree is accredited by the Institute of Biomedical Science (IBMS).

Our biomedical science course has consistently rated over 90% for Student Satisfaction in the National Student Survey (NSS). And in the 2023 Guardian University Guide, it ranked 1st in Scotland for Teaching Satisfaction.   

 

Choose Standard or Applied Biomedical Science

Following a common pathway for two years, after that you’ll take either the Standard or the Applied programme route.

The Applied route includes an 18-week placement in one of our partner hospital laboratories and is particularly relevant if you want become a Biomedical Scientist in the NHS.

While both degrees are accredited by the Institute of Biomedical Science (IBMS), (essential if you want to work in the NHS), the Applied route is also approved by the Health and Care Professions Council (HCPC).

Many of our graduates take the biomedical scientist career path. This means after gaining a Specialist Skills Diploma, you could be become a Specialist Biomedical Scientist. Ultimately this can lead to a role as a Specialised Consultant. 

Undergraduate Open Days

Visit our Dundee campus and find your place at Abertay University.

Our 2024 undergraduate Open Days will be held on ...

  • Saturday 28 September 2024

  • Saturday 2 November 2024

... and you're invited!

Click below to book your place. 

BOOK AN OPEN DAY

Potential careers

As well as gaining the skills you need to start a career in the NHS as a Biomedical Scientist, you can pursue other career paths, such as scientific work in university or commercial laboratories. 

Some have opted for other bioscience-related routes like secondary school teaching, medical sales, and postgraduate medicine or dentistry. Many go on to pursue Masters or PhD studies in the bioscience field. Possible roles include: 

  • Biomedical scientist 

  • Analytical chemist 

  • Biology teacher 

  • Research scientist 

Laboratory environment - one male is using a bunsen burner while others are watching

Choose your path

The professional accreditation means that you can apply to work as biomedical scientists/trainee biomedical scientists within the NHS. These posts are ONLY open to you if you have an Honours degree in Biomedical Science that has been accredited by the IBMS. 

Many of our graduates have taken the biomedical scientist career path. This means after gaining a Specialist Skills Diploma, you could be become a Specialist Biomedical Scientist. Ultimately this can lead to a role as a Specialised Consultant. 

Group of people working in Science Laboratory

Strong links with local hospitals

We have very strong links with local hospitals.

Particularly laboratories at Ninewells Hospital - Europe's largest teaching hospital - Kings Cross Hospital (Dundee), Perth Royal Infirmary, and Victoria Hospital in Kirkcaldy. 

Group of people working in Science Laboratory

About your modules

All modules shown are indicative and reflect course content for the current academic year. Modules are reviewed annually and may be subject to change. If you receive an offer to study with us we will send you a Programme document that sets out exactly which modules you can expect to take as part of your Abertay University degree programme. Please see Terms and Conditions for more information.

Modules

Year 1 Core Modules

You must study and pass all five core modules

Brief description

Introduction to basic chemical concepts and an overview of the application of chemistry to a wide range of science-based programmes.

Indicative content:​

  • Introductory maths for scientists: Manipulation of equations, dimensional analysis, the application of units, logs, indices, graphs, significant figures.
  • The nature of matter: The periodic table; concept, structure and trends. Electronic structure and elemental properties. VSEPR theory, hybrisiation and molecular shape. Types of bonding. Intermolecular forces. Types of matter; gases, liquids and solids.
  • Describing chemical substances and their interactions: Avagadro’s number, the mole concept, law of conservation of mass, law of definite proportions, stoichiometry, chemical formulae, balancing chemical equations, acid / base titrations, molarity calculations.
  • Simple organic molecules: Alkanes, Alkenes and Alkynes, naming conventions, structural isomerism, cis/trans isomerism, conformational analysis.

Brief description

Introduction to the theory and practice of biology.

Indicative content:​

  • The principles of cell biology: A basic overview of cell structure & division and a comparison between different cell types. Biochemical principles.
  • The organism: Overview of the major forms of life and their taxonomic relationships. Fundamental concepts in organismal biology (homeostasis, evolution and genetic inheritance).
  • Introductory microbiology: Types of microorganism, their characteristics, discovery, origin, evolution and medical significance.
  • Basic laboratory techniques: Utilisation of basic instrumentation (i.e. spectrophotometers and microscopes), preparation of solutions, handling of liquids and solids (use of glassware and pipettes). Development of aseptic techniques, media selection & preparation, growth and isolation of microorganisms, enumeration, subculturing techniques. Macro & microscopic examination. Staining for microscopy. Recording and interpreting data.
  • Health and safety: Health and safety in the laboratory, Risk assessments and COSHH regulations as applied to the laboratory.
  • Data handling and numeracy skills: Basic numeracy skills for laboratory work (converting between units, molarity, percentage (w/v), percentage (v/v), stock solutions). Introductory statistics for biosciences: populations, variables, samples, randomness and independence (including basic statistical measurements, confidence intervals, correlation/regression, normal distribution, t-tests). Graphical and numerical data description.

Brief description

Develops awareness of your career and professional development potential in biomedical and biological sciences through the use of case studies. Learn about good laboratory management and practice and the science of clinical trials and epidemiology.

Indicative content:​

  • Professional biological and biomedical sciences: Structure and activity of Institutes & Learned Societies associated with CPD in biomedical & biological sciences. Statutory obligations of membership of such organisations. Public, academic & private sector structure and function.
  • Laboratory management: Good laboratory management & practice. Health and Safety issues. Professional development in science laboratories.
  • CPD: Career structures and development opportunities in health, academic and industrial contexts.
  • Clinical trials and epidemiology: Introduction to clinical trials and epidemiological concepts. Types of study, including case control studies, cohort studies, cross-sectional, randomised control trials. Error and bias, Evaluation of strategies to treat and prevent illness.

Brief description

Chemical properties relating to chemical and biological systems such as electrochemical reactions and thermodynamics.

Indicative content:​

  • Organic and biochemistry: Organic functional groups; alcohols, amines, carboxylic acids, aldehydes, ketones and amides. Their role shape and function in organic and biological chemistry.
  • Inorganic chemistry: Advanced study of the periodic table (transition metals) and related trends. Redox reactions. Precipitation reactions and solubility. Nuclear chemistry. Nature and structure of inorganic polymers.
  • Physical chemistry: Chemical kinetics, factors affecting reaction rates, activation energy. Equilibria and its application; weak acids and bases, pH, pKa and pKb, buffers and Ksp. Introduction to concepts of thermodynamics; Enthalpy, Hess’s law, entropy and free energy and their application to chemical and biological systems.

Brief description

Fundamentals of the main physiological processes necessary for life and for maintaining whole body homeostasis.

Indicative content:​

  • Cardiovascular physiology: Structure and function of the heart and blood vessels from single cell to whole system. Cardiac electrical activity and its measurement. Perfusion and its control. Blood pressure regulation. Embeds a variety of pathophysiological examples with reference to both biomedical and forensic applications throughout e.g. coronary heart disease.
  • Respiratory physiology: Structure and function of the respiratory tract from single cell to whole system. Lung mechanics and ventilation. Oxygen and carbon dioxide transport. Central and peripheral control of respiration. Embeds a variety of pathophysiological examples with reference to both biomedical and forensic applications throughout e,g, asthma.
  • Reproductive physiology: Structure and functions of the reproductive systems from single cell to whole system. Normal body control of the female reproductive system and hormonal cycles. Embeds a variety of pathophysiological examples with reference to both biomedical and forensic applications throughout e.g. infertility.
  • Neuro and sensory physiology: Basic structures and divisions of the peripheral and central nervous system from single cell to whole system. Structure and function of nerves and the cells in the nervous system. How nerves communicate. Higher CNS functions and the ANS. Structure and function of key sensory organs. Embeds a variety of pathophysiological examples with reference to both biomedical and forensic applications throughout e.g. dementia.
  • Skeletomuscular system: Skeletal muscle structure and ultrastructure. Muscle and fibre types. Functions of tendons, joints, bones, muscle ligaments and fascia. The neuromuscular junction. Excitation - contraction coupling. The sliding filament theory. Muscle spindles. Golgi tendon organs. Reflex arcs. Embeds a variety of pathophysiological examples with reference to both biomedical and forensic applications throughout e.g. muscular dystrophy.

Years 1 and 2 Elective Modules

You must study and pass one elective module of your choosing

Brief description

Introduction of the concept of smart cities - hard infrastructure, social capital including local skills and community institutions, and digital technologies to fuel sustainable economic development and provide an attractive environment for all.

Module content:

  • Social impacts

There is an overall need for theoretical and methodological plurality in how we assess the impact and value of future cities in terms for individual and societal well−being. Gaps in our understanding relate to the complex ways individuals and groups engage with built and natural settings, the cultural goods and consequent benefits that may arise and the inequalities associated with these cultural benefits.

  • Security

Different types of cyber-attacks that could be launched against a Smart City. Impact of cyber-attacks. Approaches to securing the smart grid and critical infrastructure, i.e. improving cyber resilience.

  • Sustainable urban food production

Includes the long established allotments movement to large-scale projects based on sustainability throughout the food chain. Urban food production includes the long established allotments movement. The demand for urban growing also responds to the densification and intensification of living areas, due to population rise, migration and demographic aging with lower housing and ‘garden’ space standards placing greater importance on collective production.

  • Energy, waste and water

At present, water and wastewater facilities are often the largest and most energy intensive responsibilities owned and operated by local governments, representing up to 35% of municipal energy use. Future cities will need to utilise more sustainable methods of water and wastewater management and renewable energy production.

  • Digital technologies

​Digital technologies will play a major role in creating sustainable and resilient cities offering a vehicle for more inclusive decision−making process and promoting dialog amongst architects, urban planners, the public and technologists.

Brief description

Develop a range of skills, knowledge and techniques within the natural, technological and social sciences relevant to the study of environmental sustainability and life in the twenty-first century. Understand the critical issues that confront humanity and begin to discern appropriate responses.

Module content:

The challenge of sustainable development
Problems associated with life in the 21st Century and the relationship to scientific provisionalism and uncertainty.

The genesis of sustainable development concept
Developments associated with the Club of Rome are outlined while Limits to Growth and the Tragedy of the Commons.

Evolution of sustainable development
The Reo Summit and Suitability, and Policy Developments thereof.

Scientific inquiry and sustainable development
Controversial issues like climate change, oil peak, and food production and the role of science in helping delimit them as problematic.

Mainstreaming sustainability
Sustainability and Mitigation, Adaptation and Resilience, as individual and social concerns, and their role in transformation.

Communicating sustainability
Human well-being, Environmental Justice, Environmental Policy and the practicalities of Sustainability in Scotland.

Sustainable development in practice
Community Empowerment associated with Land Reform. Energy Production and Food Production in Tayside.

Ethics and sustainability policy
Active citizenship and globalisation.

Innovating locally, transforming globally
Transformations required to embrace Sustainability.

Active relationship for sustainable futures
Thinking globally, acting locally.

Brief description

How lifestyle can effect physical and mental well-being. This module enables you to reflect on your own lifestyle choices and how to incorporate good health behaviours into your life.

Module content:

  • Sleep and stress
    The impact of sleep and stress on health and performance. Completion of sleep diaries and questionnaires related to sleep patterns and stress.
     
  • Physical activity
    Current physical activity recommendations, components of physical fitness.
     
  • Physical inactivity
    Understanding why people are inactive. The link between physical inactivity, obesity and type 2 diabetes.
     
  • Physical activity and mental well-being
    The effects of physical activity on mental well-being.
     
  • The effect of carbohydrate consumption and exercise on blood glucose
    Measurement and recording of blood glucose in response to the carbohydrate ingestion and exercise.
     
  • Simple health and fitness testing
    Measurement and recording of data. Tests will include blood pressure, strength, endurance and flexibility. Data will be compared with normative values for these tests.

Brief description

Develop critical thinking skills that form the basis for progression across the academic disciplines of the university. Learn how to recognise, construct, evaluate, criticise and defend different forms of argument.


Module content:

•    Potential 'timeless' debates 
Debates delivered by internal and external experts on: e.g. existence of God; privacy and civil society; private property; money as source of 'evil'; nature/nurture; free speech; pornography; capital punishment; prostitution; animal experimentation; meaning of justice; abortion; affirmative action; just war; trade union power; good life/good political community; human nature; monarchy; value of democracy; meaning of equality; citizenship rights.

•    Potential 'timely' debates
Debates delivered by internal and external experts on: eg, Scottish independence, academic freedom; drug legalisation; drug use in sport; immigration; free health care; war on terror; EU membership; euthanasia; progressive taxation; race and gender discrimination; gay marriage; human rights; politics/sport; global warming; internet censorship; nuclear power; education league tables; nuclear weapons; GM agriculture; religion; cloning; fair trade; value of contemporary culture.

•    Critical thinking seminars
Follow-up discursive discipline specific seminar sessions led by teaching staff on topics covered in formal debates. Learn to identify types of argument presented, evaluate perspectives and to reflect upon their own reasoning processes and value assumptions. The debates and seminars facilitate a foundation for the acquisition of graduate attributes.

•    WEB CT Wiki discussion forum
Work in small groups to write a short 800 word indicative "Thinking Summary" online Wiki of the arguments presented in each debate. These summaries will be constructed by each designated Thinking Group of three students using the Wiki facility on Blackboard which will facilitate further discussion on the moderated WEB CT discussion forum.

Brief description

The social, managerial, economic, political, and technical challenges and opportunities associated with emerging renewable energy innovation, production, supply and consumption.

Module content:

•    Renewable energy non-technical challenges and opportunities
Social and political challenges and opportunities of renewable energy production supply and consumption. Economic and environmental challenges of renewable energy production supply and consumption. Strategic and managerial challenges of renewable energy production supply and consumption.


•    Renewable energy technological challenges and opportunities
Geotechnical, Geophysical and Hydrographic information; Knowledge of sources of hydrographic information and interpretation of published charts. Forces on structures; Appreciation of the various forces acting on marine structures. Technical limitations and challenges of energy distribution systems and energy storage. Current technological development trend, collaborative innovation in renewable energy.

Brief description

Learn how to adjust language to suit context. Analyse a range of linguistic issues, including “proper English”, how language can be used to create moral panics, and the ethics of communication.

Module content:

•    “Good English”
The role of standardisation, dialect and idiolect − how we choose language to reflect our identities and our role in a speech or discourse community.

Language and influence
How the media constructs narratives to persuade or inform the audience (and how to tell the difference).

Creating a narrative across genres
The conventions, freedoms and limitations of different forms; using these forms in new ways.

Narrative changes over time
How authors reinvent old stories to reflect current concerns.

Technical writing
The use and manipulation of data; hearing the author's voice; critiquing "bad science".

The ethics of communication
 (Electronic) media and ownership, attribution and theft.

Brief description

“Personal” digital safety to make computer security fun, practical and eye-opening.  Learn the base knowledge that will continue to be relevant to future generations of devices.

Module content:

•    Current state of computer security
An overview including legal aspects.

•    Cyber-attacks, vulnerabilities and threats
Malware, Network attacks (denial of service, packet sniffing etc.), bots and rootkits. How the bad guys can obtain your password.

•    Information leakage
Recovery and forensics recovering deleted or corrupted files. What your browser knows about you. Web browser forensics.

•    Securing networks, accounts and devices
Defence against malware, honeypots, Secure protocols, intrusion detection, Password security, Mobile device security.

•    Human aspects of cyber security 
The Psychology of Hackers, Social Engineering, identity theft, Usability vs security.

•    Breaking the code
An introduction to cryptography, Encryption and Decryption, public and private keys, the key exchange problem.

•    History of cryptography 
The Caesar cipher, polyalphabetic ciphers, the Playfair cipher, the role of Enigma and the Bletchley Park cryptographers in WWII.

•    Computers and Crypto Diffie-Hellman and RSA encryption
Phil Zimmerman and “Pretty Good Protection". Quantum Cryptography – Provably unbreakable information hiding. Mathematical Underpinnings – Large prime numbers and why they matter.

•    Steganography
 A picture's worth a thousand words when you're hiding the wood in the trees.

•    The law, society and cryptography 
Why you can be imprisoned for forgetting your password. The Civil Liberties Arguments for and against strong-crypto. International perspectives on information hiding, information freedom, the right to privacy and the conflicts between these. Are unbreakable cyphers an unqualified “good thing”?

Brief description

Develop perspectives on the key challenges faced by humankind such as environmental change, pollution, food security, energy provision, conflicts, terrorism, emerging diseases, and changing demographics. Understand the overwhelming complexity of the problems and the need for interdisciplinary approaches to create solutions.

Module content:

  • Interdisciplinary research
    Introductory lectures will discuss the definitions, methods, benefits, challenges, and drawbacks of disciplinary and interdisciplinary approaches and the role of public policy influencing research
     
  • Global challenges
    Challenges from different disciplines. Examples include: Climate Change: causes and impact; Serious Games: science and application of visualization and games; Global Security: valuing ecosystems: balancing policy, economics and environment; Contemporary Challenges to Healthy Living; Food Security: global threats and local needs; Energy Poverty: space travel.

Brief description

Design an activity to communicate and present scientific principles to primary school children. Learn about working as a group and how to communicate complex ideas.

Module content:

Developing a science communication activity
Target audience, sources of information to identify suitable activities (CfE documentation etc.), health and safety, issues around working with specific groups, accessibility, ethics, costing and sustainability.

The landscape of engagement and current practice
Types of public engagement activities, target audiences, funding, role of learned societies, universities and other bodies. Public engagement in Dundee and Tayside.

Brief description

Work in a team to develop game design concepts for serious applications. Gain the knowledge, processes and techniques of game design and study examples of serious games developed to benefit society.

Module content:

•    Overview of Games
A brief history of games, game art and gamification.

•    Games for change
Understanding how games can benefit society.

•    Game mechanics
Deconstructing core components of popular game genres.

•    Gameplay constructs
What is gameplay and how is this broken down and communicated within the game design.

•    The game design process
Conceptualisation, iteration, phases of workflow.

•    Game design theory and practice
Identifying the elements within effective design and how they are implemented.

•    Documenting the design interactive
Oriented design, technical design, capturing requirements.

•    Business models
Exploring methods that can be used to generate revenue within the game design.

Brief description

Develop the knowledge and awareness required to make good career decisions and the skills and confidence to successfully navigate each stage of the recruitment process for graduate jobs.

Module content:

  • Developing self-awareness
    Profiling of personal strengths, values and priorities in relation to career choice.
     
  • Developing opportunity awareness
    Generating career ideas based on your personal profile; Exploring the range of graduate opportunities within job sectors of interest; Reviewing occupations that are directly related to your own subject discipline.
     
  • Developing a career action plan
    Matching your personal profile with best fit opportunities in the job market; Creating a timeline of actions to improve your prospects of meeting your aim.
  • Developing job seeking skills
    Sourcing suitable job opportunities - both advertised and unadvertised; Creating a professional image online; Identifying the skills and qualities employers look for in graduates; Learning how to produce targeted applications for specific job roles; Practising the presentation of your strengths and motivations in face to face selection activities.

Brief description

Learn about natural disaster such as landslides and flooding, structural disasters such as the Tay Rail Bridge and the system of critical infrastructure (such as road, rail, air and shipping transport networks, power grid, gas and water networks, health system) that constitute the backbone of modern societies.

Module content:

•    Overview of the scope and the content of concept of critical infrastructure failure during natural disasters and resilience against such failures
The consequences of geophysical, hydrological and meteorological disasters on critical infrastructure and critical infrastructure protection capabilities against natural disasters. Interdependencies of critical infrastructures during large disasters, presents a brief review of current research being done in this field, and presents a methodology to address interdependencies.


•    The identification of the vulnerabilities of the critical systems
The critical systems upon which modern society, economy, and polity depend. The identification of the vulnerabilities of these systems threats that might exploit these vulnerabilities. The effort to develop techniques to mitigate these vulnerabilities through improved design.


•     Flooding in Scotland
General overview of fluvial, pluvial and coastal flooding, the structural, economic and societal impact and responses to flooding. Resources will include historical examples, current policies and information (including SEPA flood maps). Case study (with virtual/actual field visit?) the Perth Floods of 1990 and 1993 and the Perth flood defence scheme*


•    Landslide origins, types and mitigations
General overview what landslides are, why they happen and what can be done to prevent them.


•    Structural failure
An example such as why the Tay Bridge failed and what it meant for the Forth Rail Bridge.


•    Reports and investigations
The role of reports in accident and disaster investigations in creating informative reports; case studies of accidents, disasters, learning from history, learning from case studies, learning from common law

Brief description

Introduction to the skills and knowledge needed to launch a small business successfully. This module will define and help you acquire the personal and professional skills needed to develop a professional career and/or to succeed as entrepreneurs in Small and Medium sized Enterprises (SMEs).

Module content:

  • Understanding entrepreneurship.
     
  • Generating successful business ideas.
     
  • Environmental scanning.
     
  • Developing a credible business plan that includes evaluating business ideas.
     
  • Presenting the business idea.

Brief description

An understanding of some of the processes involved in food production. Discuss common misconceptions and ideas which present the food and nutritional industries in a bad light.


Module content:

•    Student led investigations
Student led investigations of the different sectors within the food and drink industry including: prebiotics – and the controversy surrounding the term; if barbequing is a healthy cooking method; and exposing the celebrity chef - common Myths about cooking.


•    Consumerism
Does the food industry listen to us? Understanding consumer and sensory science to better understand why you buy the products you buy.  How food/public health is reported by the media? The French paradox / Mediterranean diet.


•    Future of food
Ethical food production and the future of foods, and what’s waste got to do with it?


•    Debunking myths
Debunking food myths, more science than science fiction in our food today, like the science behind getting sauce out of a bottle and what to drink – Whisky or Beer?


•    Facts from fiction
Finding facts from fiction, investigating the three-second rule – should I eat things that have fallen on the floor? What’s so super about super-foods? Fat or sugar: Which is worse?

Brief description

Learn how we approach and understand mental health, from historic, social, therapeutic, and individual perspectives. Explore questions such as ‘what is madness?’, ‘how does society position people with mental illness?’, and ‘how do we best respond to challenges to our mental health?’

Module content:

  • Historical and cultural perspective on mental illness
    How do we ‘think’ about mental health, and mental ill health?
     
  • Diagnosis and the anti-psychiatry movement
    Who holds the power to decide what is normal in terms of psychological well-being and behaviour?
     
  • Gender, culture and mental health
    How gendered cultural expectations and representations influence how we respond to mental health issues.
     
  • Media representations
    The impact of film and literature on attitudes and understandings of mental health.
     
  • Resilience, treatment and recovery
    Common mental health problems in the UK, treatment and management, and frameworks for enhancing well-being and resilience.

Brief description

An introduction to the wide range of disciplines in forensic investigation. Learn how crimes are investigated from the moment of reporting through to the presentation of the evidence in court. A hypothetical case study provides an over-arching framework in which to explore the critical aspects of forensic investigations. It involves not only physical and electronic evidence, but also statements from witnesses, suspects and victims which requires cross discipline collaboration of professionals.


Module content:

Crime scene investigation
How a crime scene is examined in the context of incomplete contextual information and to avoid loss or contamination of evidence and the maximising of the value of evidential material.

Media involvement
Positive and negative effects of the media/public interest in the crime.

Forensic biology
Examination and evidential value of body fluids, DNA, hairs and fibres.

Forensic chemistry
Analysis for drugs, toxicological analysis, firearms, explosives, and trace evidence.

Digital sources
Evidence from CCT, mobile phones, computer hardware, on−line behaviour.

Forensic reasoning and practice
An introduction to forensic problem solving, thinking styles, case assessment and interpretation.

Psychology of witnesses and suspects
False confessions, offender profiling, effects and avoidance of cognitive bias in forensic science through process design.

Year 2 Core Modules

You must study and pass all five core modules​

Brief description

Build on your knowledge of programming taught in earlier modules (e.g. arrays, structures, simple collections). Gain an introduction to the standard data structures and algorithms that form the core of algorithmic thought in computer science and to the idea of reasoning about the behaviour and performance of a computer program.

Indicative content:

  • Reasoning about performance: The idea of an algorithm, time and space complexity, abstract data types.
  • Basic data structures: Linked lists, stacks, queues, hash tables.
  • Sorting and searching: Exhaustive and binary search, common sorting algorithms.
  • Trees: Simple trees, tree search algorithms, tree representations (XML, JSON).
  • Graphs: Simple and directed graphs, graph algorithms.

Brief description

Dynamic web applications, through client-side and server side internet development on a full-stack platform.

Indicative content:

  • Web standards: Application of HTML5 and CSS to develop responsive designs.
  • Client-side technologies: Implementation of JavaScript, libraries, and frameworks to create effective user interfaces within an appropriate development practice and methodology.
  • Design techniques: Appropriate techniques for dynamic web applications.
  • Data persistence: The use of relevant data persistence and consideration of appropriate use.
  • Server-side scripting technologies: Using server-side technologies to provide functionality. Consideration of the processes involved, and the benefits/drawbacks of processing on the server.
  • Security and legal issues: Consider legal and security issues including privacy, transparency, data protection, GDPR, authorisation and validation.
  • Practical aspects of security: Appropriate use of network protocols, secure programming, and testing strategies.

Brief description

The design and implementation of object-oriented software and relational databases. In both contexts,  review existing designs, develop your own to meet stated requirements, critically evaluate them and use them to create example implementations.

Indicative content:

  • Entity relationship (ER) modelling: Identifying entities; 1-1, 1-many and many-many relationships; design notation; ER in OO software and database design.
  • Relational database design: Using primary and foreign keys to realise 1-1 and 1-many relationships; link tables for many-many relationships; designing to meet application data requirements; normalisation.
  • SQL: SQL as a programming language; basic relational algebra; expressing unions and joins; selecting, extracting, editing and inserting data; writing SQL to meet functional requirements.
  • OO software and SQL: Including SQL into OO software; integrating OO software and database designs; realising designs in code.
  • Development methodologies: The role of a methodology; review different methodologies such as waterfall, RAD, agile, TDD; appraise the role of design within different methodologies.

Brief description

Generic concepts for the optimisation of interactions between a user and computing systems and service, and how these interactions can be evaluated. Learn about research methods, quantitative and qualitative data analysis, and ethics in the data gathering process, as well as interface design. Explore aspects of usability and accessibility.

Indicative content:

  • Designing Experiments: Creating and building small experiments that relate to aspects of computing.
  • Usability and Accessibility: Developing interfaces that are usable and accessible under consideration of platform.
  • Professional and Ethical Issues: Consideration of issues that affect professionalism and ethical procedures in computing industries.
  • Data Analysis and Evaluation: Quantitative and qualitative data analysis methods.

Brief description

Build on the earlier module, Data Structures and Algorithms 1. Gain an introduction to parallel programming on shared-memory and GPU architecture, and the design techniques underpinning parallel applications. Use a range of case studies drawn from typical real-world applications.

Indicative content:

  • Measuring performance: Basic techniques, sources of error (round off, range, instability, discretisation), profiling, analysing and presenting results.
  • Parallel programming: Why to parallelise, Amdahl’s law, high-level approaches to parallelisation, parallel design.
  • Low-level programming with threads: Starting and joining threads, sharing data safely, mutual exclusion, synchronisation objects, lock-free.
  • High-level parallel programming: Task-based parallelism, data-parallel problems, exploiting locality.
  • Instruction-level parallelism: SIMD instructions, automatic vectorisation.
  • GPGPU: GPU architectures, appropriate algorithms for GPUs, GPU profiling.
  • Application case studies: Awareness of common sorting, numerical, image processing and searching and optimization algorithms (and associated data structures) and a recognition as to which are relevant for chosen field of study e.g. Spatial trees, pathfinding and AI, database indexing, password hashing, simulation, file carving] and which can benefit from parallelisation.

Year 2 Microcredentials - Term 2

If you are a Direct Entrant (new student) to this year of study and have not previously taken module ABE101, then you MUST take ABE201 as part of your Microcredential selection. If you have previously taken ABE101 then you are NOT permitted to take ABE201.

Instructions: Please choose a total of TWENTY credits of microcredential (ABE) modules.

Brief description

Throughout the microcredential you will become familiar with university systems (including the virtual learning environment), consider what attributes make a successful student and develop key successful student habits.

Indicative content

  • Navigating Abertay Systems: Be introduced to and understand how to engage with Abertay systems and tools such as MyLearningSpace, MS Teams, OASIS, MyAbertay etc.
  • Expectations of University and You: Explore your own and the universities expectations of you and of the university; Consider the code of conduct; independent learning; blended learning; how university is structured; health and safety; and the Abertay attributes.
  • Understanding and Searching Information: How scholarly information is generated and disseminated, key characteristics of different information types. Planning, using, and refining appropriate search strategies; online search tools; using a range of web and database search functionality. 
  • Successful Student Behaviours: Develop strategies to key successful student behaviours including Defeating Procrastination, Time Management, Notetaking and preparing for classes, Growth Mindset, Accessing student support and opportunities.
  • Referencing: Understand what is meant by academic integrity, plagiarism, and the need for appropriate referencing; creating reference lists and in-text citations; use of referencing tools to manage information.
  • Sounding Academic: Explore what lecturers mean by “academic style” and “the right language”; Understand what is meant by and how to learn the rules of academic writing characteristics. Consider how this differs between college and university; Learn how to paraphrase. Explore how assessments, marking and feedback works at university.
  • Evaluating Information: Using appropriate quality criteria to critically evaluate information from any source to determine authority and bias.

Brief description

This microcredential provides you with the space and time to develop your skills in designing, planning, delivering, and showcasing an artefact responding to the societal issue. The microcredential is flexible and you will have a choice of what and how you create your response.

Indicative content

  • The Big Issue: You will be introduced to the big society issue that will be the focus of your artefact response. Learning materials available will help you consider your response to the challenge.
  • Developing Ideas: You will think creatively as to how you will respond to the big issue. You will consider your intended artefact aims, outcomes and target audience. 
  • Responding to the Challenge: Resources and guidance will be available as you respond to the challenge and create your artefact.
  • Preparing for the Showcase: Guidance will be available on how best to showcase your artefact for the assessment. You will develop your presentation skills to support you in showcasing the artefact. 
  • Showcase Event: You will attend a showcase event and present your artefact.

Brief description

You will discuss a range of anti-racist approaches and how they apply within the context of professional communications. You will examine case studies and scenarios to identify the nature of bias in society explore ways to be anti-racist especially in professional communications.

Indicative content

  • Racial Bias in Society: Using case studies and scenarios to discuss various forms of racism in society, you will explore the need for anti-racist practice in professional communications. 
  • Classification of Anti-Racist Practice: This section compares different anti-racists approaches applied across several contexts. You will discuss the challenges and benefits of each approach. You will identify barriers to implementation of anti-racist practice.
  • Discuss Anti-Racist Approaches for Successful Professional Communications: You will be introduced to various communications frameworks (e.g. the humanity-centric framework) and will explore scenarios for the application of these frameworks in a range of professional contexts.
  • Embedding Anti-Racism in Digital and Social Media Communications: How can you discuss matters of race and anti-racism on digital and social media while maintaining a professional persona. We will examine cases for best practices and explore ways to avoid bigoted language in digital communications. 

Brief description

In this module you will study two ways of analysing language: (i) a basic introduction to conversation analysis and discourse analysis as applied to ordinary talk/texting, and (ii) and introduction text mining, based on identifying patterns and developing insights from text-based data available on the Internet (e.g., social media data, online texts, online reviews etc).

Indicative content

  • Conversation Analysis and Talk and Text as Action: A brief overview of the CA focus on language as action; an examination of how people talk in terms of questions, answers, invitations, excuses, justifications etc.; an examination of texting, emojis, misunderstandings.
  • Text Mining: Introduction to text mining and its uses in a social sciences and business context; Online data sources; The text mining process: data collection, pre-processing and analysis; effectively communicating and visualising insights from textual data.

Brief description

By the end of this microcredential, you will be able to evaluate and select machine learning algorithms and AWS services to be appropriately applied to different business problems.

Indicative content

  • Introduction to Machine Learning: What is ML? ML process, business problem solved with ML, ML tools, Amazon SageMaker, ML challenges, supervised learning (regression, classification), unsupervised learning (clustering, dimensionality reduction), reinforcement learning, etc.
  • Implementing a ML pipeline using Amazon Sage Maker: Formulating ML problems, collecting and securing data, extracting, transferring and loading data, evaluating your data, finding corelation, feature engineering, data cleaning, dealing with outliers, training, deployment, performance evaluation, hyperparameters and model tuning.
  • Forecasting: Time series analysis, Amazon Forecast, Implementing a forecast model, Stock Predictions.
  • Computer Vision: Facial Recognition, Image and Video Analysis, Dataset Preparation.
  • Natural Language Processing: Amazon Comprehend, Polly, Translate, and Lex, Creating a chatbot, Alexa, etc.

Brief description

This online module will support you to get familiar with sustainability and introduce you to tools that can help you to understand and reduce your climate impact. By increasing your sustainability self-awareness, you will be able to make a positive difference in your own life, and in the organisations and communities around you.

Indicative content

  • What is sustainability and how is it linked to Climate Change?: We define sustainability, enhancing understanding of the links between society, economy, and environment. Climate change is explained and linked to sustainability. We provide clear accessible information about the reliable science of climate change. We describe the need efforts towards limiting human-induced global warming (limiting cumulative CO2 and other greenhouse gas emissions). 
  • Global Sustainability: We introduce the United Nations Sustainability Goals (SDGs). The 2030 Agenda for Sustainable Development, adopted by all United Nations Member States in 2015, provides a shared blueprint for peace and prosperity for people and the planet, now and into the future. At its heart are the 17 Sustainable Development Goals (SDGs), which are an urgent call for action by all countries - developed and developing - in a global partnership. They recognize that ending poverty and other deprivations must go hand-in-hand with strategies that improve health and education, reduce inequality, and spur economic growth – all while tackling climate change and working to preserve our oceans and forests. 
  • Personal Sustainability: The WWF environmental footprint tool is a great way to start your personal sustainability journey. The planet is in crisis - from climate change to the pollution in our oceans and devastation of our forests. It's up to all of us to fix it. Take your first step with our environmental footprint calculator. 
  • Community Sustainability and Climate Resilience: Community climate resilience comes in many forms. In this topic we introduce ideas which can provide multiple benefits of people, planet, and prosperity. We showcase inspiring examples whereby working with natural processes (Biophilic design, blue and green infrastructure) we can connect people with nature to improve their well-being and quality of life, whilst simultaneously tackling climate change and storing carbon.
  • Global Solutions: What is the world doing about it? What impact do Global Climate and Biodiversity agreements (COP26 etc) really have? What’s happening here? Where are the challenges and the good news stories? We showcase positive initiatives focussed on progress.

Brief description

By the end of the module, you will know more about key aspects of nutrition and health and be better equipped to identify and tackle the barriers that prevent you from eating well.

Indicative content

  • Healthy eating on a budget: This topic will show you that healthy eating doesn’t have to be expensive! You will be given basic nutritional knowledge, as well as skills and practical tips to be able to eat a healthy diet on a budget. You will then be able to develop your own menu and share it with your peers, so you learn from us as well as from each other.
  • Prebiotics, probiotics and health: You will learn about the importance of our microbiota on health, and how what we eat can modulate it. You will be provided with cooking tips and will be able to develop your own fermented foods for better gut health.
  • Fat or sugar, which is worse?: You may have heard that fats are bad for our health, or perhaps you have heard it is all about the sugars? You will learn about the role of both sugars and fats in our diet; what makes them good or bad for health and the science behind it. You will be given the tools to assess your own sugar and fat intake as well as tips to implement the changes you need to eat better. 
  • The British diet vs Mediterranean diet: What is a Mediterranean diet and what are its real benefits? Is it just a diet or a pattern? Can we get the same benefits as those living in Mediterranean countries? In this topic, you will explore how feasible it is for us to adopt the Mediterranean diet and lifestyle, considering the seasonality of ingredients as well as sustainability. 
  • What drives our food choices?: How healthy do you think your diet is? Do you find it easy to eat well? With this topic you will become more aware of our obesogenic environment, of how the food industry talks to us, and how the media report nutritional claims. You will learn to look more closely and more critically at your environment, so you can make healthier decisions.

Brief description

This microcredential will help you to refine your current writing skills through the analysis and discussion of a range of texts and exercises, enabling you to then apply these techniques to assignments for your other modules.

Indicative content

  • Speaking the language: How to develop your academic and professional vocabulary: understanding the genre; understanding your reader’s expectations.
  • Meeting expectations: Why different assignments have different requirements: decoding instructions; selecting appropriate writing techniques.
  • Tightening up the nuts and bolts: How to improve your writing accuracy: reviewing key grammar and punctuation issues; improving your editing and proofreading.
  • Standing on the shoulders of giants: How to borrow from the greats: reviewing the principles of citing sources; using writing techniques to incorporate research into writing.

Brief description

This module will help you develop a better understanding of the difference between media reporting and scientific evaluation. It will equip you with the skills to look beyond sensational stories related to human behaviour and dig deeper into a topic area to validate the evidence.

Indicative content

  • Paranormal Beliefs and Experiences: Is Extrasensory Perception Real? Is there really evidence that we can predict the future?
  • Myths about the Brain: Can repressed memories be recovered in therapy? How easily are false memories created? What are the implications for the justice system? 
  • Myths about our Mind and Body: Is the key to success in everyday life simply a case of posing like a powerful superhero? 
  • Myths about Language: Does being bilingual make you smarter and keep your brain younger? Are bilingual people less likely to get dementia as a result of this lifelong brain training?

Brief description

Through this microcredential you will gain an insight into what the world of work may look like in the (near) future. This includes developing a knowledge of how the economy and labour market evolves and why individual skills-sets and employability are so important and intrinsically linked to this process.

Indicative content

  • The future of work: What will the future of work look like? What is used to predict how the world or work will change? Can the future of the economy and of work be accurately predicted? 
  • Key factors that influence change: Identifying some of the key factors that influence how the world of work and our economy evolves and changes.
  • The key role of skills and personal employability: The emergence and decline of skills: skills are fundamental to the economy (and graduate employers). What skills will be most in demand and/or be most valuable to our economy in future and why? Understand the importance of skills to the economy (and to graduate employers) at both the macro and micro level. Know what specific new skills are emerging and becoming more valuable and sought after, (as others are in decline) for our modern economy and graduate labour market. 
  • Labour market information - what is it for?: Labour market Information is hugely important to our understanding of our economy at any given time: and also, in looking at the present and past to help predict future growth, opportunities, shortages and skills gaps. Recognise the importance of key Labour Market Information (LMI). Have the ability to source and use key Labour Market Information (LMI). Understand how to use accurate Labour Market Information as a tool to help their own personal development and future career planning. 
  • What now?: Some help and steer – suggestions to you may wish to use your new knowledge and insight to help with your own career aspirations, planning and personal/professional development while at university.

Brief description

Some businesses have the sole focus of making money whereas others exist to also make a difference. Social enterprises are becoming more popular, and recognisable, and are making an impact across the world. From supporting the homeless, to giving waste products a second life, social enterprises are fighting for various causes. 

Indicative content

  • What is a social enterprise and how does it function?: What the definition of a social enterprise is with examples from different sectors.
  • How do social enterprises identify problems to tackle?: How social enterprises decide on what they will tackle and how they will do it. 
  • How do you gather evidence that there is a problem requiring a solution?: Way in which you can gather evidence and data to validate the idea for a social enterprise. Determining needs and wants within a category. 
  • How to identify skills and knowledge gaps: Understanding the skillsets within a founding team to fulfil the tasks required to start a social enterprise. 
  • How to understand the problem you are trying to solve: Knowing the problem, you are trying to solve and how this effects the target customers the social enterprise is aimed at. Looking at the issues in a customer-focussed way. 
  • How to develop a social impact plan: What is involved in a social impact plan and how to put one together. 

Brief description

This module will introduce you to the study of AI and Society. Artificial Intelligence (AI) is a set of technologies and concepts and can be understood as using computers and software to denote problem-solving capacities and knowledge acquisition (intelligence) which otherwise we believe only belongs to natural beings such as humans.

Indicative content

  • Introduction to the core concepts: A brief introduction to the concepts of “artificial”, “intelligence” and “society”. 
  • Introduction to the problem of AI and Society: A discussion of where the problem of the impact of AI on Society comes from, presentation of some of the original debates and examples.
  • Contemporary debates: A discussion of the contemporary debates about the impact of AI on Society, with examples.

Brief description

What is Artificial Intelligence (AI) and how has it shaped our past and present? These are questions we will explore on a guided tour of AI from the past to the present and the future. You will develop a better understanding of what AI is and isn’t.

Indicative content

  • Historical AI: Tracing the historical development of “traditional” AI systems including aircraft autopilots, expert systems, and accounting/financial software.
  • Current AI: Covering the contemporary generation of AI technologies in areas such as speech recognition (e.g., Alexa, Siri) and recommendation systems (e.g., Amazon, YouTube). Examples will be drawn from Health, Sport, Games, Engineering, Business, Law and Computing. 
  • Future AI: Exploring the limitations of today’s AI when it comes to general intelligence and contextual adaptation. Examples will be drawn from Health, Sport, Games, Engineering, Business, Law and Computing.
  • My AI: How AI will impact your future, and how you can use AI to help you achieve your career goals.  Reflection on how AI may inform your subject area going forward.

Brief description

This microcredential is aimed at you, if you have an interest in technology but are not experts. The microcredential will develop your digital safety and how to stay safe online.

Indicative content

  • Threat Landscape: Cyberattacks and online threats. System vulnerabilities. Social Engineering. Rights and computer laws.
  • Authentication: Password security. Biometrics. MFA and Password managers. Good practices for authentication.
  • Secure Communication: Web browser security. Certificates and trust. Effective encryption. Secure communication methods.
  • Personal Information Privacy: Information leakage. Personal information privacy and open-source intelligence. Device encryption and security. Security mindfulness.
  • Malware: Types of malware. Identifying malicious software. Malware propagation techniques. Malware removal and preventative measures.

Brief description

This microcredential will help you to develop and build your own confidence in applying numeracy skills in real world situations.

Indicative content

  • What is my GPA and how likely am I to get a First? (BASIC NUMERACY): Calculation and manipulation of data using Percentages, Indices (Powers), Roots, Probability, and simple equations. 
  • The power of prediction (GRAPHS): Straight line graphs, Gradients, Equations of a straight line, Intercepts. Drawing graphs - Linear equations, Distances between points. Simultaneous linear equations.  
  • Love a good puzzle (ALGEBRA): Changing subject of formulae. Factorisation - common factors, Difference of two squares, Trinomials. Solving simultaneous equations by Substitution and Elimination.
  • Advanced power of prediction (FUNCTIONS): Introduction to functions – Linear and Quadratic and solving quadratic equations. Factorising Quadratic equations.
  • Love a good triangle (TRIGONOMETRY): Trignometric functions - Sine, cosine and tangent. Trignometric formulae.

Brief description

In this microcredential, you will learn more about how digital media production professionals in the UK and China are working together to reduce barriers and identify new opportunities for collaboration and growth.

Indicative content

  • History and future of videogames in China: Focussing on the videogame sector as a case study of Chinese digital creative industries, how has the videogames market and industry developed in China, how is the Chinese videogames economy currently constituted, and what does the future hold?
  • Consumer trends and audience preferences: What is popular with audiences in China? What can we note about preferences in terms of narrative content, aesthetics, play styles etc. when compared with other markets?
  • Policy and regulation: What unique regulations or limitations are imposed on digital media within China, and what similarities are there with other national and transnational regulations? How is creative content development and publishing shaped by policy in China? What social and ethical challenges are presented by regulation, in China as well as in the UK?
  • Transnational working and co-production: How is digital creative content conceived, developed, and released by professionals working across borders? What are the challenges for small and independent creative studios, compared with multi-nationals with studios based in and outside China?
  • Publishing in China: How do digital media content like videogames make it to market in China? What processes and requirements must creative businesses be aware of, and how do developers find, connect to, and work with Chinese publishers? How to consumers in China access content, including on grey markets?
  • Challenges and success: Hear from UK and Chinese professionals on the China market, co-operation, the hurdles they cleared, and how they found success.

Brief description

Increasingly, the role of creativity in supporting and maintaining wellbeing is being researched and celebrated. This module will introduce you to the current theory in this area, as well as a range of creative resources shown to be helpful for both self-care and the support of others.

Indicative content

  • Why does creativity matter?: An introduction to why creativity matters when it comes to mental health.
  • Your brain on words: The place of stories in their various forms as a resource for wellbeing.
  • Engaging the senses: The potential of tools such as music and art for self-care.

Year 3 Core Modules

You must study and pass all six core modules

Brief description

Cellular, tissue and molecular bases of disease and dysfunction in humans. General processes and approaches for diagnosis and monitoring and selected pathologies in an integrative context.

Indicative content:​

  • Basic principles of Pathology: Structural-functional correlations, signs, symptoms and syndromes; pathological terms and terminology; organisation of pathology services. The role and future of molecular pathology. The vital role of imaging in pathology.
  • Core techniques in Clinical Biochemistry: Introduction: Range of diagnostic, monitoring and screening tests; basics of test design, sample handling and test interpretation. Evaluation of analytes in selected specific conditions (diseases and dysfunctions) eg. carbohydrate and lipid disorders, and for specific organ/system functions eg. liver, kidney, heart. Water, electrolytes and acid-base balance. Tumour markers.
  • Core techniques in Cytopathology and Histopathology: Histotechnique: Types of microscopy and applications in cyto-/histopathology; preparation of cells and tissues; microtomy, cryomicrotomy and ultramicrotomy; range of routine and special stains; practical challenges of staining; reporting procedures. Structure/ultrastructure of normal cells and tissues; structural/ultrastructural correlates of disease. Immunocytochemical approaches eg probe range, FISH. Role of imaging in pathological screening, diagnosis and monitoring.​
  • Understanding Neoplasia: Distinctive characteristics of neoplasms; Benign- malignant spectrum; cancer classification systems; terminology; characteristics of cancer cells (and their use in diagnosis). Molecular pathogenesis/multi- step nature of neoplasia.Metastasis. Clinical consequences of established malignancies eg.paraneoplastic syndromes.
  • Cellular Pathology - Cell Injury, Adaptation and Death: Cellular homeostasis. Dysregulation of the cell cycle, DNA damage and repair and associated diseases. Responses to injury. Necrosis and apoptosis. Patterns and types of of necrosis. Adaptive responses to injury eg. hyperplasia, atrophy,metaplasia, dysplasia (Neoplasia considered under separate heading). Abnormal deposition; calcification.
  • General Pathology - Inflammation and Repair: Acute inflammation - Sequence, vascular dimensions, mediators. Chronic inflammations. Tissue repair processes (At tissue, cellular and molecular levels). Repair of selected tissues eg. skin, bone. New developments in tissue repair. Effects of aging on repair. Immunopatholgical dimensions.
  • Systemic Pathology: Selected Dysfunctions: Selected systems - In-depth illustrations of the integration of (1) Cellular, molecular and systemic approaches;(2)Investigative techniques; and (3) Management of clinical consequences. Examples will be taken from: (1) Colorectal carcinomas, IBDs, stomach cancers; (2) Female reproductive cancers; (3) Hepato-cellular failures and other hepatobiliary dysfunctions; and (4) Renal pathologies. 

Brief description

Information relevant to professional work in the clinical environment, and of bioethics (medical ethics). The module covers essential aspects of the profession that are mandatory for all students on both programme routes (standard and applied), in order to meet IBMS accreditation requirements. It’s an essential pre-requisite for students undertaking subsequent hospital placements on the Applied route, in order to meet HCPC approval requirements.

Indicative content:​

  • Management and professional issues in the NHS context: Professional regulation and conduct, role of the Biomedical Scientist, user demand and management of staff and workload, training and CPD, effective team working.
  • Health and safety: Legislation governing laboratory Health and safety, hazard identification and risk assessment, COSHH, biological safety.
  • Bioscience industry: The role of the ICH Guidelines (Quality, Safety, Efficacy), FDA Regulations and their role in Biotech/Biological Product Development and Manufacture.
  • Bioethics: Ethical approaches: deontological and teleological. Ethical systems: intuitive responses, religious laws, rights, utilitarianism. Application of ethical approaches and principles to contemporary bioscience and biomedical issues.

Brief description

Clinical detection, diagnosis and therapeutic treatment of a variety of human diseases. A practical study of blood and constituents in normal and diseased states and diagnostic investigations.

Indicative content:​

  • Haematology: Red cell, white cell and platelet disorders and their causes. Inherited and acquired anaemias, malignant and other blood disorders. Blood coagulation and its defects.
  • Serology and transfusion science: Blood group systems. Donor blood collection. Compatibility testing and transfusion hazards. Blood product and reagent preparation, testing, storage and use.
  • Haematology and serology practicals: Morphological features of blood cells, and their classification. Blood processing and testing.

Brief description

Contemporary medical biotechnologies that are currently being either developed or routinely used, in the life science sector.

Indicative content:​

  • Contemporary techniques in medical biotechnology: Contemporary medical biotechnologies e.g Next generation genomic and transcriptomic sequencing, proteomics, interactomics, metabolomics.
  • The use of current medical biotechnologies in the public and private sector: Nucleic acid and protein diagnostics, methods that lead to diagnostic screening techniques and drug discovery. For example diagnostic nucleic acid techniques, immune diagnostic kits, targeted drug screening using enzymes (eg. kinases), proteins (eg. cytochrome P450), from laboratory to market will be explained and demonstrated (during industrial visits).

Brief description

The processes involved in experimental design/assay development and testing. Gain the necessary basic practical/analytical skills and theoretical knowledge required to be a reliable and independent laboratory worker.

Indicative content:​

  • Experimental design and statistics/data analysis: Determining objectives and specifying hypothesis; factors, levels, blocking and randomisation; use of appropriate statistical tests, using the statistical package SPSS.
  • Mini investigation: Carry out a mini project in which a variety of experimental methods are applied and critically evaluated (the exact nature of the techniques used will depend on the nature of the project and will vary).
  • Information literacy: Plan and conduct literature search, making use of a wide range of resources, including full-text and abstracting databases as well as reference management software.
  • Principles of experimental techniques: Demonstrate a detailed knowledge of experimental techniques used in the execution of the mini-project including specific strengths and limitations.

Brief description

The process of turning basic biological research into an end product e.g. a drug, licenced for clinical use.

Indicative content:​

  • Process and quality management: Process and quality management as key themes throughout drug development: Good laboratory practice, good clinical practice and good manufacturing practice. The role of Quality by Design, Regulatory Affairs and quality assurance in drug licencing. The role of MHRA and FDA, etc.
  • Identifying and developing candidate drug molecules: Examining clinical drivers, QSAR, high-throughput-screening, intellectual property.
  • Cellular structures as drug targets: Cellular structures as drug targets focusing mainly on cell surface receptors: Pharmacodynamics of drug-receptor binding. Quantifying drug efficacy and binding in vitro.
  • Preclinical development: Pharmacokinetics, toxicity studies in animal models.
  • Clinical trials: Clinical Trials Good Clinical Practice, Phase I to IV of clinical trials. Study design trial, sources of bias, recruitment, and sample size, analysis of data Per-protocol/intention to treat analysis.
  • Guest lecturer from industry: Product development and marketing.
  • ​​Large scale manufacturing: Large scale manufacturing, Regulatory approval, post market monitoring (Phase (IV).

Year 4 Core Modules

You must study and pass all five core modules

Brief description

Advanced insight into current and emerging advanced aspects of human medical genetics. Molecular basis, screening, investigation and treatment of genetic diseases.

Indicative content:​

  • Principles and concepts in human genetic diseases: Major sources and forms of genetic disease will be considered at an advanced level. To include (inter alia): developmental aberrations, polygenic effects and epigenetic changes. Examples of specific disorders - specific cases selected of which to be for the coursework (individualised titles) - include (inter alia): haemoglobinopathies, developmental disorders, inherited forms of blindness, muscular dystrophy, hereditary cancers, neurodegenerative conditions and psychiatric disorders.
  • Techniques relevant to clinical genetics: The focus will be on emerging technologies. Pre-implantation diagnosis. Pre-natal screening and testing. The use of sequencing for medical diagnostics and screening. Bioethics of genetic screening and testing. Practical work is likely to focus on DNA extraction, PCR, DNA sequencing and fragment analysis in disease diagnosis.
  • Genetic therapies for human diseases: Therapies in relation to the selected human diseases. Somatic gene therapy: in vivo and ex vivo approaches. Gene therapy for cancer. Gene targeting and gene editing. Germline genetic modification. Bioethics of genetic therapies.

Brief description

The scientific basis of health and dysfunction of selective systems in an integrative context. Current and future treatment options.

Indicative content:​

  • Central nervous system pathology: A range of neuropathological disorders split into four clear categories. A: Neurodegenerative disorders e.g. Parkinson’s, Huntington’s, Alzheimer’s. B: Strokes – e.g. Haemoragic stroke, Ischaemic stroke,and transient ischemic attacks. C: Acute brain injury – Primary and Secondary injuries. D: Brain tumours – e.g. astrocytoma. ependymoma,oligodendroglioma.
  • Reproductive/Developmental pathophysiology: A: Male UG disorders. B: Female reproductive system disorders. C: Infertility: diagnosis and treatment. D: Downs syndrome: clinical diagnosis.
  • Metabolic disorders: Causes, consequences, comorbidities, treatment and models of A: Diabetes. B: Obesity. C: Metabolic syndrome and their interrelations.

Brief description

A perspective on public health, current threats to health and healthcare within populations and mechanisms and organisations for managing diseases.

Indicative content:

  • Public Health and Epidemiology Concepts: Understand terms such as cluster, outbreak, endemic, epidemic, pandemic and evaluate research methods in the field of epidemiology. Neglected diseases.
  • Natural and anthropogenic sources of disease: Critical awareness of disease sources of both natural origin such as infectious diseases; bacterial, viral and parasitic as well as diseases caused by environmental, lifestyle and social determinants.
  • Qualitative and quantitative data streams: Accessing, using and appraising qualitative, quantitative and 'semi- quantitative' health data from local, national and international sources.
  • Disease surveillance and monitoring: The process of disease surveillance from a local level (reporting from NHS labs) to the role of national and international organisations, such as governments, World Health Organisation and Centre for Disease Control. How these organisations respond to and manage new and emerging health threats.
  • Ethics: Public health ethics. Role of national and international organisations in formulating policies based on evidence and ethical criteria.
  • Prevention, Health Care and emergency risk management: Case studies examining strategies for minimising the impact of natural and anthropogenic diseases. Carrying out a SWOT (strengths, weaknesses, opportunities and threats) in public health strategies.

Brief description

The theoretical underpinning and statistical skills required to pursue a detailed investigation of a selected research topic under the guidance of a member of staff.

Indicative content:​

  • Research project management: The role of literature review in research. The principles and practice of GLP and GMP, Research methods, The role of literature review in research. Research project management. Time management in the research context.
  • Research project development: Research ethics. Research health and safety. Statistical skills for research.

Brief description

Organise and carry out a research project. Interpret and evaluate the data, and communicate the findings. Develop the ability to apply intellectual, organisational and communication skills within a specific area of study.

Indicative content:​

  • Project work: Effectively and efficiently conduct the project into a specific aspect of your discipline, under the supervision of a named academic or academic team.
  • Project log/Lab book: Keep accurate records of your work in an appropriate format.
  • Communication of findings: Produce a final project report within the discipline specific guidelines. Present the outcomes of the research project by means of a poster presentation.

How the course works

The degree award title for the Standard route is BSc (Hons) Biomedical Science. For the Applied route, the degree award title is BSc (Hons) Applied Biomedical Science.

The Applied route means you can apply for HCPC registration as soon as you graduate successfully.  

Standard route graduates can be employed in the NHS as trainee biomedical scientists and then apply for HCPC registration after more training (typically 12-24 months). 

In most years, the number of students wanting to transfer to the Applied route exceeds the number of available placements (typically around 30%). If this happens, entry to the Applied route is competitive and will be based on your Year 2 academic performance. 

Learning and assessment

You’ll learn through a combination of lectures, seminars, tutorials and practical work. Enquiry-based learning (EBL) and problem-based learning (PBL) approaches are used at appropriate points in the curriculum. 

Assessment is by a combination of coursework assignments, class tests, presentations and examinations.  

Accreditations

Institute of Biomedical Science Logo  Health & Care Professions Council logo

Entry requirements

Please note:  All applicants must have passes in English and Maths - National 5 grade C or GCSE grade C/4 or equivalent.  National 5 ESOL is accepted in lieu of National 5 English. Lifeskill Maths and Application of Maths at grade B accepted.

Please visit our College Qualifications pages for suitable College courses.

Republic of Ireland applicants, click on the UK tabs and scroll down to find your Entry Requirements.

See information about studying and applying to Abertay for International students.

Qualification Type Grade Requirements Essential Subjects
Higher (standard entry) BBBC Biology or Human Biology at Higher B and Chemistry at Nat 5 C or better (OU module SXM150 considered in lieu of Nat 5 Chemistry)
Higher (minimum entry) We may make you an offer at the minimum entry grades if you meet the criteria. Find out if you're eligible for minimum entry (see below). BBC Biology or Human Biology at B and Chemistry at Nat 5 C or better
A-Level CCC Biology or Human Biology at A Level and either Chemistry, Combined Science, Additional Science or Further Science or Double Science GCSE at C or better (A Level Medical Science in lieu of Biology SB)
T Level C or higher in Core Component in one of the following:- Healthcare Science or Science
Irish Highers H3H3H3H3 Biology and Irish Ordinary Chemistry at C or better
BTEC Extended Diploma MMM Applied Science/Applied Science (Forensic Science)/Applied Science (Medical Science)
International Baccalaureate Diploma Based Programme (IBDP) 27 Points Biology at S5 or H4 and Chemistry in Middle Year programme at 4 or better
International Baccalaureate Career-related Programme (IBCP)

We encourage applications with the IBCP but understand that your combination of qualifications may differ depending on where you are studying.

We accept the International Baccalaureate Careers-related Programme (IBCP). Any subject requirements must be met as per our published IB Diploma requirements.
AHEAD   Successful completion of the relevant stream of our AHEAD programme
SWAP Access BBB Life Sciences, Health & Life Sciences, Sciences, Biological Sciences, Science, Technology and Health
Qualification Type Grade Requirements Essential Subjects
Advanced Higher BBB Biology and Chemistry
A-Level BBB Biology and Chemistry
BTEC Extended Diploma DDD Applied Science (Medical Science)
International Baccalaureate 34 Points Biology and Chemistry plus one other Higher
SQA HNC B Our College Qualifications pages list approved HNC courses
SQA HND B Applied Chemical Science
BTEC HNC M Applied Biology

International Baccalaureate Career-related Programme (IBCP)

See next column If you are taking HNC/HND with one or more Higher Levels IB subjects, your offer will be similar to our BTEC + A Level offer (see 'BTEC National Diploma / Diploma') but with an HL requirement of 6 for A, 5 for B, or 4 for C.
Qualification Grade Requirements Essential Subjects
SQA HND B/BB Our College Qualifications pages list approved HND courses
BTEC HND M Applied Biology
International Baccalaureate Career-related Programme (IBCP) See next column If you are taking HNC/HND with one or more Higher Levels IB subjects, your offer will be similar to our BTEC + A Level offer (see 'BTEC National Diploma / Diploma') but with an HL requirement of 6 for A, 5 for B, or 4 for C.
*Those gaining direct entry to year 3 are not eligible to compete for a clinical laboratory placement, and therefore will not normally be permitted to follow the Applied Route of the programme.

We accept a wide range of qualifications from applicants from across the world. Please select your country from the searchable list below to view different qualification entry requirements. If you have different qualifications to those listed, please contact us using the form below.

This field is required
This field is required

Academic Requirements

Applicants will typically be required to achieve CCC at A-Level, to include any essential subject(s).

Applicants will typically be required to pass the International Baccalaureate (IB) Diploma with an overall score of 28 points, to include any essential subject(s) at S5 or H4.

English language: English B at S5 or H4 is accepted. For English A, no grade is specified. For alternative English language qualifications, please see below.

Applicants will typically require a High School GPA of 3.0, plus one of the following:

  • SAT (I) score of 1100
  • 3 AP Tests at grades 333
  • 3 SAT Subject Tests at 600
  • ACT Composite score of 25

A combination of AP/SAT II tests may be used, provided they are in different subjects.

Applicants will typically be required to pass the Caribbean Advanced Proficiency Examination (CAPE) with 6 units as follows: 4 units at III, 2 units at IV, to include any essential subject(s) at III.

Applicants will typically be required to pass the European Baccalaureate with an overall grade of 70%, to include any essential subject(s) at grade 7.

English language: English Language 1 at grade 6 or English Language 2 at grade 7 are accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the NECO in at least five subjects at an average of B/C, and the first year of a university degree in a relevant subject with an average grade of 54%/2.00, to include any essential subject(s) at 60%/2.70.

English language: English at C6 or higher in the NECO is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the WAEC in at least five subjects at an average of B/C, and the first year of a university degree in a relevant subject with an average grade of 54%/2.00, to include any essential subject(s) at 60%/2.70.

English language: English at C6 or higher in the WAEC is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Diplomë e Maturës Shtetëore with an overall grade of 7.5, to include any essential subject(s).

Applicants will typically be required to pass the Baccalauréat Technique / Commercial with an overall grade of 14, to include any essential subject(s).

Applicants will typically be required to pass the Baccalauréat de l'Enseignement Secondaire with an overall grade of 14, to include any essential subject(s).

Applicants with national school qualilfications will typically be required to pass the first year of a university degree in a relevant subject with an average grade of 12/20, to include any essential subject(s).

Applicants will typically be required to pass the Trayecto Técnico Profesional with an overall grade of 6.5, to include any essential subject(s).

Applicants will typically be required to pass the Título de Técnico Superior/Universitario with an overall grade of 6.5, to include any essential subject(s).

Applicants will typically be required to pass the Araratian Baccalaureate at Extended Level with grades CCC, to include any essential subjects.

Applicants will typically be required to pass the Certificate of Secondary General Education wih an average of 13 and the first year of a university degree in a relevant subject with an average grade of 64%, to include any essential subject(s).

Applicants will typically be required to pass the Year 12 Certificate plus ATAR rank of 77 or Overall Position of 11, to include any essential subject(s) at Year 12 with grade B, grade 3 or Sound Achievement.

Applicants will typically be required to pass the Reifeprüfung/Maturazeugnis with an overall grade of 2.8, to include any essential subject(s) at grade 2.

English language: English at grade 2 in the Reifeprüfung/Maturazeugnis is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Tam Orta Tahsil Hazzinda Aggestat with an average of 4, and the first year of a university degree in a relevant subject with an average grade of 62%, to include any essential subject(s).

Applicants will typically be required to pass the Shahadat Al-Thanawaya Al-Aama/General Secondary Education Certificate with an average of 60%, and the first year of a university degree or post-secondary diploma in a relevant subject with an average grade of 65% or 2.25 (on the 4 point scale), to include any essential subject(s).

Applicants will typically be required to pass the Intermediate/Higher Secondary School Certificate at an average of 2.5, and the first year of a university degree in a relevant subject with an average grade of 50% or C+, to include any essential subject(s) at 60% or grade B.

Applicants will typically be required to pass the Certificate of General Secondary Education at an average of 6, and the first year of a university degree in a relevant subject with an average grade of 6.0, to include any essential subject(s).

Applicants will typically be required to pass the Certificate d'Enseignement Secondaire Supérieur with an overall grade of 60%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Diploma van secundair onderwijs with an overall grade of 60%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Abschlusszeugnis der Oberstufe des Sekundarunterrichts with an overall score of 60%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Diploma de Bachiller at 64%, and the first year of a university degree in a relevant subject with an average grade of 63%, to include any essential subject(s) at 70%.

Applicants will typically be required to pass the General Certificate of Secondary Education at an average of 4.5, and the first year of a university degree in a relevant subject with an average grade of 70%, to include any essential subject(s).

Applicants will typically be required to pass the Certificado de Conculsão de Segundo Grau with an average score of 8.0, to include any essential subject(s) at grade 8.0.

Applicants will typically be required to pass the Certificado de Conclusão de Ensino Médio with an average score of 8.0, to include any essential subject(s) at grade 8.0.

Applicants will typically be required to pass Brunei A Levels in 3 subjects at grades CCC, to include any essential subject(s).

Applicants will typically be required to pass the Diploma za Sredno Obrazonvanie with an average score of 4.5, to include any essential subject(s) at grade 5.

Applicants will typically be required to pass the Diploma of Upper Secondary Education at average of C, and the first year of a university degree in a relevant subject with an average grade of 65%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Baccalaureat or Baccalaureat Technique at an overall grade of 12, to include any essential subject(s) at grade 12.

Applicants will typically be required to complete the Secondary School Diploma or Diplôme d'Études Collégiales with five grade 12 subjects at an average of 65%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Licencia de Education at an average of 4.5, and the first year of a university degree in a relevant subject with an average grade of 4.5, to include any essential subject(s) at grade 5.

Applicants will typically be required to complete Senior Middle/High School Certificate/Diploma at an average of 75%, to include any essential subject(s) at 77%; and pass GAOKAO with 500 points (based on the 750 points scheme).

Applicants will typically be required to pass the Bachiller Academico at an average of 3.25, and the first year of a university degree or Tecnico Universitario in a relevant subject with an average grade of 3.3, to include any essential subject(s) at grade 3.

Applicants will typically be required to pass the Svjedodžba o Maturi with an overall grade of 3.2, to include any essential subject(s) at grade 3.

Applicants will typically be required to pass the Apolytírio Lykeíou with an overall grade of 17.0, to include any essential subject(s) at grade 17.

Applicants will typically be required to pass the Vysvědčení o maturitní zkoušce with an overall grade of 2.4, to include any essential subject(s) at grade 3 (Dobrý).

Applicants will typically be required to complete the Studentereksamen (STX), including 3 Level A subjects an overall grade of 7, to include any essential subject(s) at grade 7.

English language: Studentereksamen English Level A or B at grade 7 is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Título de Bachiller at an average of 7.0, and the first year of a university degree in a relevant subject with an average grade of 13 / 60%, to include any essential subject(s) at 60%.

Applicants will typically be required to pass the Gumaasiumi lõputunnistus with an average score of 3.2, to include any essential subject(s) at grade 4; and pass 3 state examinations at a minimum of 55% (or 2 states examinations plus C1 Advanced English CAE or IELTS).

English language: 75% in the English state examination is accepted, or C1 Advanced English CAE or IELTS (overall score 6.0 with no band lower than 5.5). For alternative English language qualifications, please see below.

Applicants will typically be required to complete the Studentsprogv at an overall grade of 7, to include any essential subject(s) at Level A grade 7.

Applicants will typically be required to pass the Ylioppilastutkinto/Studentexamen at an overall grade 4, to include any essential subject(s) at grade 5.

English language: Advanced English at grade 5 within the Ylioppilastutkinto/Studentexamen is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Baccalauréat Général/Professionnel/Technologique at an overall grade 12, to include any essential subject(s) at grade 13.

English language. English at grade 14 in the Baccalauréat Général/Professionnel/Technologique is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Option Internationale du Baccalauréat at an overall grade 11, to include any essential subject(s) at grade 13.

English language. English at grade 13 in the Option Internationale du Baccalauréat is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Sashualo Skolis Atestati (Secondary School Certificate) at an average grade of 7, and the first year of a university degree in a relevant subject with an average grade of 65%, to include any essential subject(s).

Applicants will typically be required to pass the Shualo Specialuri Sastsavleblis Diplomi (Special School Leaving Diploma) at an average grade of 7, and the first year of a university degree in a relevant subject with an average grade of 65%, to include any essential subject(s).

Applicants will typically be required to pass the Abitur with an overall grade of 2.4, to include any essential subject(s) at grade 11.

English language: Abitur English at grade 10 is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Greek Apolytirion of Geniko Lykeio at grade 17 and 3 Pan-Hellenic exams at an average of 16, to include any essential subject(s) at grade 17.

Applicants will typically be required to pass the Hong Kong HKDSE at 3333 in 4 core subjects, with elective subjects at 333 (for 3 electives) or 43 (for 2 electives), to include any essential subject(s) at 3.

Applicants will typically be required to pass the Érettségi Bizonyítvány at an overall grade 4.0, with 2 higher subjects at grade 4, to include any essential subject(s).

Applicants will typically be required to pass the Stúdentspróf at an overall grade 6, to include any essential subject(s) at grade 6.

Applicants will typically be required to pass the Indian Senior School (Year 12) exam at an average of 60%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Sekolah Menengah Kejuruan/Madrasah Aliyah (SMK / MA) at 71%, to include any essential subject(s).

Applicants will typically be required to pass the Post School Qualification Diploma 1 at 2.2, to include any essential subject(s).

Applicants from Ireland should check the UK Year 1 Entry tab for entry requirements with Irish Highers.

Applicants will typically be required to pass the Te'udat Bagrut or Bagrut with at least 2 subjects at level 5 and 1 subject at level 4 at an average of 60%, to include any essential subject(s) at Level 5 with 65%.

Applicants will typically be required to pass the Diploma di Esame di Stato at 70%, to include any essential subject(s) at grade 8 (on the 10 point scale) or grade 16 (on the 20 point scale).

Applicants will typically be required to pass the Upper Secondary School Leaving Certificate at grade 3.5, to include any essential subject(s) at grade 4.

Applicants will typically be required to pass the Certificate of Completed Secondary Education at an average of 3, and the first year of a university degree in a relevant subject with an average grade of 70% / 2.33, to include any essential subject(s).

Applicants will typically be required to pass the Kenya Certificate of Secondary Education (KCSE) at an average of B, and the first year of a university degree in a relevant subject with an average grade of 50%, to include any essential subject(s) at 55%.

Applicants will typically be required to pass the Certificate of Complete General Secondary Education at an average of 3, and the first year of a university degree in a relevant subject with an average grade of 3.4, to include any essential subject(s).

Applicants will typically be required to pass the Atestas par vispārējo vidējo izglītību with an average score of 7, to include 3 state exams at a minimum of 70%, to include any essential subject(s) at 70%.

English language: 80% in the English state exam is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Baccalauréat Libanais or Baccalauréat II with 12, to include any essential subject(s) at grade 12.

Applicants will typically be required to pass the Brandos Atestatas with an average score of 7 with a minimum of 70% in 3 state exams, to include any essential subject(s) at grade 8.

English language: 80% in the English state exam is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Diplôme de Fin d'Études Secondaires at an overall grade of 42, to include any essential subject(s) at grade 44.

Applicants will typically be required to pass the Certificate of Higher Secondary Education with 70%, to include any essential subject(s) at 73%.

Applicants will typically be required to pass the Ensino Secundário Complementar with grade 2.6, to include any essential subject(s) at grade 3.

Applicants will typically be required to pass the Cambridge Overseas Higher School Certificate (COHSC) with grades CCC, to include any essential subject(s) at grade C.

Applicants will typically be required to pass the Malawian School Certificate of Education at grade 5, and the first year of a university degree in a relevant subject with an average of 60%, to include any essential subject(s).

Applicants will typically be required to pass the Sijil Tinggi Persekolahan Malaysia (STPM) with a minimum of 3 subjects at BCC or 2.30 GPA, to include any essential subject(s) at grade B/3.

Applicants will typically be required to pass the Unified Examination Certificate (UEC) with 4 subjects at 70% / B5 B5 B5 B5, to include any essential subject(s) at grade 75%/B5.

Applicants will typically be required to pass the Matriculation Certificate Examination with grades BC at Advanced level and CCCC at Intermediate level, to include any essential subject(s) at Advanced level grade C.

Applicants will typically be required to pass the Diplomă de Bacalaureat with an overall grade of 6.0, to include any essential subject(s) at grade 7.

Applicants will typically be required to pass the Certificate of Secondary Education at 70%, and the first year of a university degree in a relevant subject with an average of 70%, to include any essential subject(s).

Applicants will typically be required to pass the Higher Secondary Education Certificate (HSC) with 65%, to include any essential subject(s) at 65%.

Applicants will typically be required to pass the Voorbereidend Wetenschappelijk Onderwijs (VWO) with an overall score of 6.6, to include any essential subject(s) at grade 7.

English language: English at grade 8 in HAVO is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Secondary School Leaving Diploma/Matura with an overall grade of 3.5, to include any essential subject(s) at grade 3.

Applicants will typically be required to pass the Vitnemål for Vidergaende Opplaering with an overall average of 3.6, to include any essential subject(s) at grade 4.

English language: English at grade 4 in the Vitnemål for Vidergaende Opplaering is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Higher Secondary School Certificate at an average of 60%, and the first year of a university degree in a relevant subject with an average grade of 60%/2.5, to include any essential subject(s) at 68%.

Applicants will typically be required to pass the Matura with an average score of 60%, to include 3 Advanced subjects at a minimum of 50%, to include any essential subject(s) at Advanced level with a score of 70%.

Applicants will typically be required to pass the Diploma/Certificado Nível Secundário de Educação with an overall grade of 14, to include any essential subject(s) at grade 16.

Applicants will typically be required to pass the Qatar Senior School Certificate (Shahadat Al-Thanawaya Al-Aama) at an average of 60%, and the first year of a university degree in a relevant subject with an average grade of 2.0/70%, to include any essential subject(s) at 2.5/75%.

Applicants will typically be required to pass the Diplomă de Bacalaureat with an overall grade of 7, to include any essential subject(s) at grade 8.

Applicants will typically be required to pass the Attestat o Srednem Obrzovanii (Certificate of Secondary Education) at an average of 4, and the first year of a university degree in a relevant subject with an average grade of 3.5, to include any essential subject(s).

Applicants will typically be required to pass the General Secondary Education Certificate (Tawjihiyah) with an average of 60%, and either the post-secondary diploma or first year of a university degree in a relevant subject with an average grade of 3.0/70%, to include any essential subject(s) at 75%.

Applicants will typically be required to pass Singapore GCE A-Levels with grades CCC, to include any essential subject(s) at grade 75%/B5.

Applicants will typically be required to pass the Vysvedčenie o maturitnej skúške at grade 2.4, to include any essential subject(s) at grade 2.

English language: English at B2 level at grade 2 in the Vysvedčenie o maturitnej skúške is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Maturitetno spričevalo at grade 3.5, to include any essential subject(s) at grade 4.

Applicants will typically be required to pass the National Senior Certificate (with Matriculation Endorsement) with 4 subjects at 5555, to include any essential subject(s).

Applicants will typically be required to pass the Título de Bachiller with an average score of 6.8, to include any essential subject(s) at grade 7.

Applicants will typically be required to pass the Sudan School Certificate with an average of 60%/C, and the first year of a university degree in a relevant subject with an average grade of 65%/B, to include any essential subject(s).

Applicants will typically be required to pass the Avgangsbetyg/Slutbetyg fran Gymnasieskola with an average score of 15.5, to include any essential subject(s) at level 5 grade B.

English language: English Level 5 at grade B or English Level 6 at grade C in the Avgangsbetyg/Slutbetyg fran Gymnasieskola is accepted. For alternative English language qualifications, please see below.

Applicants will typically be required to pass the Certificat de Maturité or the Maturitätszeugnis or the Attestato Di Maturità with an overall grade of 4.2, to include any essential subject(s) at grade 4.

Applicants will typically be required to pass Maturitätszeugnis with an overall grade of 4.2, to include any essential subject(s) at grade 4.

Applicants will typically be required to pass the Attestato Di Maturità with an overall grade of 4.2, to include any essential subject(s) at grade 4.

Applicants will typically be required to pass the Certificate of Complete General Secondary Education at an average of 3, and the first year of a university degree in a relevant subject with an average grade of 3.4, to include any essential subject(s).

Applicants will typically be required to complete the Certificate of Secondary Education/Maw 6 with an average of 70%/3.0, to include any essential subject(s) at grade 3; or complete the first year of a university degree in a relevant subject with an average of 2.0, to include any essential subject(s) at 2.5.

Applicants will typically be required to pass the High School Diploma at an average of 55%, and the first year of a university degree in a relevant subject with an average grade of 2.9 (on the 5 point scale) or 55 (on the 100 point scale), to include any essential subject(s).

Applicants will typically be required to pass the Certificate of Secondary Education at an average of 3, and the first year of a university degree in a relevant subject with an average grade of 3.5, to include any essential subject(s).

Applicants will typically be required to pass the Certificate of Complete General Secondary Education, and the first year of a university degree in a relevant subject with an average grade of 65% / 2.2 (on the 4 point scale) / 4.0 (on the 5 point scale), to include any essential subject(s).

Applicants will typically be required to pass the General Secondary Education Certificate Examination at 65%, and the first year of a university degree in a relevant subject with an average grade of 2.0, to include any essential subject(s) at grade 2.3.

Applicants will typically require a High School GPA of 3.0, plus one of the following:

  • SAT (I) score of 1100
  • 3 AP Tests at grades 333
  • 3 SAT Subject Tests at 600
  • ACT Composite score of 25

A combination of AP/SAT II tests may be used, provided they are in different subjects.

Applicants will typically be required to pass the Diploma of Academic Lyceum at an average of 3, and the first year of a university degree in a relevant subject with an average grade of 60%, to include any essential subject(s).

Applicants will typically be required to pass the Título de Técnico Superior Universitario, and the first year of a university degree in a relevant subject with an average grade of 50% / 6.1 (on the 10 point scale) / 12 (on the 20 point scale), to include any essential subject(s).

Applicants will typically be required to pass the Zimbabwe General Certificate of Education at Advanced Level with grades CCC, to include any essential subject(s).


English Language Requirements

All courses at Abertay University are taught in English. If your first language is not English, you will need to demonstrate that you meet our English language requirements. Accepted English language qualifications include:

IELTS - overall score of 6.0 with no band lower than 5.5

TOEFL - overall score of 78 (individual elements: L-17, R-18, S-20, W-17)

Cambridge FCE/CAE/CPE - overall score of 169 on Cambridge Grading Scale

International Baccalaureate - English B at S5 or H4, English A no specific grade required

European Baccalaureate - English Language 1 at grade 6 or English Language 2 at grade 7

You do not need to prove your knowledge of English language if you are a national of certain countries. Please see English Language Requirements for the full list of accepted qualifications and further details.

 

If your academic qualifications aren't listed above, or if you have any further questions, please contact our international team using the form below. There is also lots of useful information for international applicants on our international pages.


Contact our International Team

This field is required
This field is required
Please enter a valid email address
Please enter a valid telephone number
Please choose how you would like to receive essential information about your application.
This field is required

Not sure if you're eligible for entry?

If you have the potential and motivation to study at university, regardless of your background or personal circumstances, we welcome your application.  

We understand some people have faced extra challenges before applying to university, which is why we consider the background in which your academic grades have been achieved when making an offer.  

If you expect to receive passes in three Scottish Highers (grades A-C) and have...  

  • been in care, or are a young carer yourself

  • attended a school or lived in an area where not many people go to university

  • are eligible for free school meals

  • are a young person estranged from your family

  • are a government-recognised refugee or have asylum seeker status

  • are a registered pupil with sustained engagement in a targeted aspiration-raising programme such as LIFT OFF, LEAPS, FOCUS West or Aspire North  

... we encourage you to submit an application.

Ukrainian flag

Support for Ukrainian students

We're keen to offer help to Ukrainian students who may wish to transfer from their existing institution in Ukraine or to register with us as new students for intake in September. There will be no tuition fees charged for the duration of the degree programme, as those with refugee status are treated as 'Home/Scottish' students and will also have access to the Student Awards Agency for Scotland bursary and student loans. Our Recruitment Team can help guide applicants.

SEND AN ENQUIRY

Fees and funding

The course fees you'll pay and the funding available to you depends on factors such as your nationality, location, personal circumstances and the course you are studying. 

More information

Find out about grants, bursaries, tuition fee loans, maintenance loans and living costs in our undergraduate fees and funding section.

 

Scholarships

We offer a range of scholarships to help support your studies with us.

As well as specific Abertay scholarships for English, Welsh, Northern Irish and international students, there are a range of corporate and philanthropic scholarships available. Some are course specific, many are not. There are some listed below or you can visit the Undergraduate scholarship pages.

Abertay RUK Scholarship: Science and Social Science

A scholarship for prospective undergraduate Science and Social Science students applying from England, Wales or Northern Ireland.

Abertay International Scholarship

This is an award of up to £12,000 for prospective international undergraduate students.

Get inspired

Meet some of our Biomedical Science graduates and find out what they've gone on to do.

Derek Mitchell

Derek is a Mental Health Paramedic within the Scottish Ambulance Service.

Find out more

Nicola Robson

Nicola is a Specialist Biomedical Scientist working in the Pathology Department at NHS Tayside.

Find out more

Tiffany Pietrek

Senior Biomedical Scientist - Donor Testing Laboratory at Scottish National Blood Transfusion Service (SNBTS).

Find out more

Steven Swanson

Steven is a Team Manager and Specialist Biomedical Scientist in the NHS.

Find out more

The Discover Uni dataset

The Discover Uni dataset (formerly Unistats) is an official source of information about higher education. It collates comparable information in areas students have identified as important in making decisions about what and where to study.

Pause carousel

Play carousel