MSc Marketing Management
The MSc Marketing Management program at the University of Aberdeen offers students a co...
Aberdeen
INTAKE: September
The BSc Biomedical Sciences (Physiology) program at the University of Aberdeen provides students with a comprehensive understanding of the physiological processes that underpin human health and disease. This program integrates theoretical knowledge with practical laboratory skills to prepare students for careers in biomedical research, healthcare, pharmaceuticals, biotechnology, and academia. With a focus on physiology, anatomy, and pathophysiology, the BSc Biomedical Sciences (Physiology) program equips students with the expertise needed to address complex issues in human physiology and contribute to advancements in healthcare and biomedical sciences.
Curriculum: The curriculum of the BSc Biomedical Sciences (Physiology) program at the University of Aberdeen covers a wide range of topics in physiology, anatomy, biochemistry, and related disciplines. Core courses include subjects such as human physiology, neurophysiology, cardiovascular physiology, and endocrinology. Students also have the opportunity to choose elective modules in specialized areas such as exercise physiology, reproductive physiology, or integrative physiology, allowing for a tailored learning experience based on individual interests and career goals.
Research Focus: Research is a central component of the BSc Biomedical Sciences (Physiology) program at the University of Aberdeen. Students have the opportunity to engage in hands-on research projects under the guidance of faculty members who are experts in physiology and related fields. Whether conducting experiments in laboratory settings, studying physiological responses to exercise, or investigating disease mechanisms, students gain valuable research skills and contribute to advancing knowledge in physiological sciences.
Industry Engagement: The University of Aberdeen maintains strong connections with industry partners in various sectors related to biomedical sciences and healthcare, providing students with opportunities to gain practical experience and develop professional skills through internships, placements, and collaborative projects. Whether working in pharmaceutical companies, medical device firms, or healthcare organizations, students have access to real-world projects and gain insights into the practical applications of physiology in industry settings.
Global Perspective: With a diverse student body and faculty from around the world, the BSc Biomedical Sciences (Physiology) program at the University of Aberdeen offers a global perspective on physiological research and healthcare. Students have the opportunity to study diverse physiological adaptations, health disparities, and disease patterns in different populations, gaining insights into global health challenges and solutions. Additionally, the university's strong international partnerships and research collaborations provide opportunities for students to participate in global research initiatives, study abroad programs, and international conferences, further enhancing their global perspective and cross-cultural understanding.
Aberdeen
IELTS 6
£ 24800
Undergraduate Entry Requirements
Academic Qualifications: A minimum of 75% or equivalent in the qualifying examination, which is typically the high school diploma or its equivalent in the respective country.
English Language Proficiency:
Students must provide:
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
These scholarships aim to recognize academic excellence, promote diversity, and assist students in pursuing their education at the university.
Aberdeen Global Scholarships: The Aberdeen Global Scholarships are merit-based awards available to international undergraduate and postgraduate students. These scholarships provide a tuition fee discount of up to £8,000, depending on the academic qualifications and achievements of the students.
Vice-Chancellor's Undergraduate Scholarship: This prestigious scholarship is awarded to exceptional undergraduate students from outside the European Union (EU). It covers the full cost of tuition fees for the duration of the undergraduate degree program.
Chevening Scholarships: The University of Aberdeen is a proud partner of the UK government's Chevening Scholarship program. These scholarships are awarded to outstanding students from Chevening-eligible countries and cover tuition fees, living expenses, and other allowances.
Commonwealth Scholarships: The university participates in the Commonwealth Scholarship and Fellowship Plan, offering scholarships to students from Commonwealth countries. These scholarships cover full tuition fees, living expenses, and travel costs.
Country-Specific Scholarships: The University of Aberdeen offers various scholarships that are specific to certain countries or regions. These scholarships may be funded by governments, organizations, or donors from those countries and aim to support students from those regions in pursuing their education at the university.
External Scholarships: In addition to university-specific scholarships, international students at the University of Aberdeen can explore external scholarship opportunities. These scholarships are offered by organizations, foundations, and governments outside the university and can provide financial support for tuition fees, living expenses, and research projects.
It is important to note that the availability and specific details of scholarships may vary each year.
Graduates of the BSc Biomedical Sciences (Physiology) program at the University of Aberdeen are well-prepared for a variety of rewarding career paths in fields such as biomedical research, healthcare, pharmaceuticals, biotechnology, and academia. With a solid foundation in physiology, anatomy, laboratory techniques, and research experience, graduates have the skills and knowledge to pursue diverse and impactful careers contributing to advancements in human health and biomedical sciences.
Physiology Research Scientist: Physiology research scientists work in academic institutions, research laboratories, or biotechnology companies, conducting experiments, analyzing data, and investigating physiological processes underlying human health and disease. Graduates may work as physiology research scientists, studying topics such as cardiovascular physiology, neurophysiology, or metabolic physiology, and contributing to the development of new treatments and therapies.
Clinical Physiologist: Clinical physiologists work in hospitals, clinics, or diagnostic centers, performing diagnostic tests and assessments to evaluate physiological function and diagnose medical conditions. Graduates may work as clinical physiologists, specializing in areas such as cardiac physiology, respiratory physiology, or neurophysiology, and using techniques such as electrocardiography, spirometry, or nerve conduction studies to assist in patient diagnosis and management.
Healthcare Scientist: Healthcare scientists work in healthcare settings, providing scientific and technical expertise to support patient care and treatment. Graduates may work as healthcare scientists, specializing in areas such as clinical physiology, cardiac physiology, or respiratory physiology, and performing diagnostic tests, interpreting results, and advising healthcare professionals on patient care and treatment options.
Pharmaceutical Researcher: Pharmaceutical researchers work in pharmaceutical companies, research institutes, or regulatory agencies, conducting research and development to discover and develop new drugs, therapies, and treatments. Graduates may work as pharmaceutical researchers, studying drug mechanisms of action, pharmacokinetics, or drug interactions, and contributing to the development of new medications for various medical conditions.
Biomedical Engineer: Biomedical engineers work at the intersection of engineering, biology, and medicine, designing and developing medical devices, equipment, and technologies to improve healthcare outcomes. Graduates may work as biomedical engineers, specializing in areas such as physiological monitoring, medical imaging, or biomechanics, and designing innovative solutions to address physiological challenges and improve patient care.
Academic Researcher/Teacher: Some graduates may choose to pursue careers in academia, conducting research and teaching physiology at colleges, universities, or research institutes. They may work as academic researchers, conducting original research, publishing scholarly articles, and securing research funding to advance scientific knowledge in physiological sciences. Additionally, they may teach courses in physiology, mentor students, and supervise research projects to inspire the next generation of scientists and researchers.
Clinical Trials Coordinator: Clinical trials coordinators oversee clinical research studies aimed at testing the safety and efficacy of new drugs, therapies, or medical devices. Graduates may work as clinical trials coordinators for pharmaceutical companies, contract research organizations, or academic institutions, coordinating clinical trials, recruiting participants, and collecting data to support the development of new treatments for various medical conditions.
Healthcare Consultant: Healthcare consultants provide strategic advice and solutions to healthcare organizations, pharmaceutical companies, or government agencies on issues related to healthcare delivery, medical technology, or regulatory compliance. Graduates may work as healthcare consultants, leveraging their expertise in physiology and biomedical sciences to provide insights into healthcare trends, market opportunities, and innovation strategies.
Physiology Educator: Physiology educators teach physiology at various educational institutions, including high schools, colleges, and universities. They design and deliver lectures, laboratory sessions, and other educational activities to help students understand physiological principles and their applications in health and disease. Graduates may work as physiology educators, inspiring and educating the next generation of healthcare professionals and scientists.