MBM Master of Business Management
The MBM program at the University of Essex is designed to develop well-rounded business...
BSc Applied Biomedical Science (NHS placement)
Colchester Campus
INTAKE: October
Program Overview
The BSc Applied Biomedical Science (NHS placement) program at the University of Essex is designed to prepare students for careers as biomedical scientists within the National Health Service (NHS) and other healthcare settings. This degree integrates theoretical knowledge with practical laboratory skills, focusing on the diagnosis and treatment of diseases through the analysis of biological samples. Students undergo rigorous training in biomedical techniques, including clinical biochemistry, medical microbiology, cellular pathology, and hematology. The program emphasizes hands-on experience and includes a placement year within the NHS, providing students with valuable insights into professional practice and enhancing their employability in the healthcare sector.
1. Comprehensive Biomedical Training: Students receive comprehensive training in biomedical science disciplines, covering key areas such as clinical biochemistry, medical microbiology, hematology, and cellular pathology. They develop proficiency in laboratory techniques, diagnostic procedures, and data analysis methods used in healthcare settings.
2. Practical Laboratory Skills: The program emphasizes practical laboratory skills, allowing students to gain hands-on experience in conducting biomedical experiments and analyzing biological samples. They learn to use state-of-the-art laboratory equipment and techniques to perform tests, interpret results, and report findings accurately.
3. NHS Placement Year: An integral part of the program is the placement year within the NHS, where students work alongside experienced biomedical scientists in clinical laboratories. This placement provides valuable real-world experience, allowing students to apply their knowledge in a professional healthcare environment and gain insight into the role of biomedical scientists in patient care.
4. Collaboration and Interdisciplinary Learning: The program encourages collaboration and interdisciplinary learning, fostering partnerships between biomedical scientists, clinicians, and other healthcare professionals. Students engage in collaborative projects and interdisciplinary research, gaining a holistic understanding of healthcare delivery and patient-centered care.
5. Specialization and Research Opportunities: Students have the opportunity to specialize in specific areas of biomedical science through optional modules and research projects. They explore topics such as immunology, genetics, cancer biology, and clinical research, gaining in-depth knowledge and expertise in their chosen field of interest.
6. Clinical Placement Experience: In addition to the NHS placement year, students may undertake clinical placements in different healthcare settings, including hospitals, clinics, and research laboratories. These placements offer practical exposure to diverse clinical scenarios and patient care practices, enhancing students' clinical skills and professional competence.
7. Career Preparation and Employability Skills: The program focuses on developing students' employability skills and preparing them for successful careers in biomedical science. Graduates are equipped to pursue roles as biomedical scientists, clinical researchers, laboratory managers, or healthcare consultants within the NHS or private healthcare organizations.
8. Continuing Professional Development (CPD): Upon graduation, students can engage in continuing professional development (CPD) activities to further enhance their knowledge and skills. They have opportunities to pursue postgraduate studies, specialized training programs, or professional certifications to advance their careers in biomedical science.
9. Contribution to Healthcare Innovation: Graduates of the program contribute to healthcare innovation by conducting research, developing new diagnostic techniques, and implementing advanced technologies in biomedical laboratories. They play a vital role in improving patient outcomes and advancing medical science through evidence-based practice.
Location
Colchester Campus
Score
IELTS: 6
Tuition Fee
£ 20050
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 70 to 75% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 with no individual component below 5.5.
- TOEFL: A minimum overall score of 75.
- PTE Academic: A minimum overall score of 51.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It is important to note that entry requirements may vary across different programs and courses. Additionally, meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as the number of available places and competition for certain courses.
The University of Essex offers a range of scholarships and financial support options to assist students in their academic journey. These scholarships are designed to recognize and reward academic excellence, promote diversity and inclusion, and provide assistance to those facing financial challenges.
Academic Excellence Scholarships: The university offers scholarships to outstanding students who demonstrate exceptional academic achievements. These scholarships are typically merit-based and provide financial support towards tuition fees or living expenses.
International Scholarships: The University of Essex provides scholarships specifically designed for international students. These scholarships aim to attract and support talented students from around the world. Eligibility criteria and award amounts may vary, and they may cover a portion of tuition fees or provide assistance with living expenses.
Subject-specific Scholarships: Some departments and schools within the university offer scholarships tailored to specific academic disciplines. These scholarships are often awarded to students with exceptional academic records or those who demonstrate a strong commitment to their field of study.
Access and Participation Scholarships: The university is committed to promoting diversity and inclusion. It offers scholarships and financial support to students from underrepresented backgrounds, including those from low-income families or individuals who are the first in their family to attend university.
Government-funded Scholarships: In addition to internal scholarships, the University of Essex provides information and guidance on scholarships and funding opportunities offered by external organizations and government agencies. These scholarships may be available to students based on factors such as nationality, field of study, or research interests.
Sports Scholarships: The university recognizes the importance of sports and offers scholarships to talented athletes who demonstrate exceptional sporting abilities. These scholarships provide financial support along with access to sports facilities, training programs, and dedicated support services.
It is important to note that scholarship availability, eligibility criteria, and application processes may change over time.
The BSc Applied Biomedical Science (NHS placement) program at the University of Essex equips graduates with the skills and experience necessary to pursue rewarding careers within the healthcare sector.
1. Biomedical Scientist in the NHS: Graduates are well-prepared to work as registered biomedical scientists within the National Health Service (NHS). They perform a variety of laboratory tests and analyses to aid in the diagnosis, treatment, and monitoring of diseases. Biomedical scientists play a crucial role in patient care and contribute to healthcare teams in hospitals and clinics.
2. Specialist Laboratory Roles: Graduates can pursue specialized roles within clinical laboratories, such as clinical biochemistry, medical microbiology, hematology, or cellular pathology. They focus on specific areas of diagnostics and gain expertise in performing complex tests and interpreting results accurately.
3. Healthcare Research and Development: With a strong foundation in biomedical science, graduates can transition into roles within healthcare research and development. They contribute to research projects aimed at advancing medical knowledge, developing new treatments, and improving diagnostic techniques.
4. Laboratory Management and Supervision: Experienced graduates may progress into laboratory management or supervision positions, overseeing the operations of clinical laboratories. They manage laboratory staff, ensure quality control, and implement new technologies and procedures to enhance efficiency.
5. Healthcare Consultancy and Industry: Graduates can explore opportunities in healthcare consultancy, advising on laboratory practices, quality assurance, and regulatory compliance. They may also work in biomedical equipment manufacturing or pharmaceutical industries, providing technical expertise and support.
6. Further Education and Specialization: Some graduates choose to pursue further education by undertaking postgraduate studies or specialized training programs. This allows them to specialize in areas such as immunology, genetics, or clinical research, opening up advanced career opportunities in academia or industry.
7. Clinical Trials and Pharmaceutical Research: Graduates with a background in applied biomedical science can work in clinical trials and pharmaceutical research. They contribute to drug development processes, conduct experiments, and analyze data to support the development of new therapies and treatments.
8. Public Health and Epidemiology: Graduates may enter roles related to public health and epidemiology, focusing on disease surveillance, outbreak investigation, and health promotion initiatives. They collaborate with public health agencies and contribute to efforts aimed at improving population health.
9. Academic and Teaching Roles: Experienced professionals may pursue academic or teaching positions within universities or vocational training institutions. They share their expertise with the next generation of biomedical scientists and contribute to the academic community through research and teaching.
10. Continuing Professional Development (CPD): Graduates are encouraged to engage in continuing professional development (CPD) activities to maintain their registration and stay updated with advancements in biomedical science. CPD helps them remain competitive in the job market and enhances their career progression.
