Bachelor in Biomedical Science in England in United Kingdom

Top Bachelor Degrees in Biomedical Science in England in United Kingdom

Biomedical Science

Education in the United Kingdom is a devolved matter with each of the countries of the United Kingdom having separate systems under different governments: the UK Government is responsible for England, and the Scottish Government, the Welsh Government and the Northern Ireland Executive are responsible for Scotland, Wales and Northern Ireland, respectively.

England is the largest of the four "home nations" that make up the United Kingdom. It is also the most populous of the four with almost 52 million inhabitants (roughly 84% of the total population of the UK).

Top Bachelor Degrees in Biomedical Science in England in United Kingdom 2017

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Bachelor in Biomedical Sciences (BSc)

Middlesex University London
Campus Full time 3 years August 2017 United Kingdom London

Our BSc Biomedical Science Degree with Honours course appeals to students with a science background who are interested in a career in hospital laboratories... [+]

Bachelor in Biomedical Sciences (BSc)

Our BSc Honours Biomedical Science degree course appeals to students with a science background who are interested in a career in hospital laboratories, scientific research or further study.This is a dynamic course taught by enthusiastic lecturers and backed by experts in the field. Our labs and teaching rooms are new and built to our own specification to ensure that you have the best possible experience, and we have capped the number of students we take to ensure small classes receiving a personally tailored learning experience.The degree is accredited by the Institute of Biomedical Science, giving students a professional qualification that can take them onto a recognised career path.Middlesex recently opened its state-of-the-art bioanalytical laboratories for teaching and research. With investment totalling £3 million the facilities match, and in some cases surpass, those offered at UK medical schools.The labs provide the next generation of scientific instrumentation for molecular analysis, post the genomic era - in line with the new focus in scientific research on protein-hunting rather than gene-hunting.As well as being used by undergraduate and postgraduate students, they will be used by academic and research staff who continue to pioneer research particularly into developing affordable treatment for AIDS-related cancer patients in third world countries.Some of the main features of the new laboratories are:... [-]


BEng(Hons) Bioengineering

University of Kent, School of Engineering and Digital Arts
Campus Full time 3 years September 2017 United Kingdom Canterbury

This cross-disciplinary course is designed for students with a strong interest in engineering and bio-medicine. [+]

This cross-disciplinary course is designed for students with a strong interest in engineering and bio-medicine. Drawing from our established expertise in developing medical-electronic systems and from the research synergies with the School of Biosciences (e.g. Systems Biology), the course will form engineers with a solid knowledge in biology and medical science. Course variants: - Bioengineering, BEng - Bioengineering with a Year in Industry, BEng The School is an IET Academic Partner. Accreditation for this new programme will be applied for from the Engineering Council. This three-year, full-time BEng programme is offered jointly with the School of Biosciences. It draws on The School of Engineering and Digital Art’s established expertise in developing medical-electronic systems and its research synergies with the School of Biosciences. The course will produce engineers with a solid knowledge in biology and medical science, opening up career opportunities in the bioengineering industry and the NHS. [-]

BMedSc in Biomedical Materials Science

University of Birmingham - College of Medical and Dental Sciences
Campus Full time 3 years September 2017 United Kingdom Birmingham

This degree offers you the opportunity to gain a comprehensive background in the medical science and engineering of materials for repairing or replacing damaged, diseased or missing tissues in the human body. [+]

Bachelors in Biomedical Science in England United Kingdom. Artificial hip and knee joints, replacement blood vessels and heart valves, artificial teeth and fillings, contact lenses, modern drug delivery systems and tissue engineering are just a few of the growing number of applications of biomedical materials. This degree offers you the opportunity to gain a comprehensive background in the medical science and engineering of materials for repairing or replacing damaged, diseased or missing tissues in the human body. The Biomedical Materials Science course is one of the few courses focussing equally on the biological and material sciences and our graduates therefore find career opportunities in a wide range of areas related to medical and dental sciences. “As long as humans cannot replace lost tissue like a salamander, the development of biomaterials and biomaterials based tissue engineering scaffolds will be crucial for the wellbeing of an ageing population. Characterisation and development of novel biomaterials is what the Biomedical Materials Science course is about.” Dr Mike Hofmann, Biomaterials Researcher Also referred to as 'The Biomaterials Course', the programme is multidisciplinary and taught in several departments, including Dentistry, Medicine, and Metallurgy and Materials. The course is centered around the Biomaterials Unit one of the principal research units within the School of Dentistry which links clinical work with both clinical and scientific research. Our state of the art laboratories are based at the brand new Dental Hospital. First year You will study the structure and properties of materials – including polymers, ceramics and metals – anatomy, physiology, introduction to cell and molecular biology and bacteriology, alongside biomechanics and a general introduction to the development and clinical use of biomaterials. The first year also includes a study skills course providing you with a basic working knowledge of the use of search engines, IT and statistics. Wherever possible, lecture material is reinforced with practical classes. After the examination period in the summer you will visit local hospitals where you will observe, for example, a hip or knee replacement operation being performed. Second year In this year you focus on the reactions of the body to biomaterials, how these materials are designed and made into components to be used in medical application. You will also learn about the factors that affect performance of biomaterials in service. Modules cover cell and molecular biology, orthopaedic and dental biomaterials, microscopy, infection and immunology and materials design. Practical sessions will give you further experience of handling and testing biomaterials. Third year Your final year gives you the opportunity to get involved in state of the art ongoing research within your extensive two-semester final year research project. You will learn more about tissue engineering and biomaterial design, develop your laboratory and project management skills and deepen your scientific knowledge. You will ultimately present your research project as a dissertation accompanied by a poster, both of which draw on your scientific writing and presentation skills acquired in the first and second year. Your work may ultimately be published in a scientific journal. Why study this course Hospital location: You will be based in the new Birmingham Dental Hospital and School of Dentistry,the only course of its kind to be based in a Hospital. This means there will be the direct input by clinicians into the course content therefore ensuring the clinical relevance of our teaching. Equal emphasis on material and biological sciences: Taught across several departments including Dentistry, Medicine and Metallurgy and Materials, this truly multidisciplinary course is one of the few courses in the UK that covers both materials and biological science equally, meaning you will develop a broad knowledge base in both areas. This will allow you to choose from a wider variety of career options in the field of biomaterials once you graduate. Orthopaedic Biomaterials focus: As an area of medicine relevant to an increasingly aging population, orthopaedic biomaterials is an important focus of your study at Birmingham. From hip replacements to tissue engineering, you will learn about how artificial materials are enabling to replace diseased joints and bones through a growing number of biomaterial applications. Small year groups: You will enjoy the close-knit community atmosphere created by our small year group and therefore quickly settle into University life, easily make friends with your course mates and build strong working relationships with teaching and support staff. Final year research project opportunities: In the third year of the course you will undertake a research project of your choice. This will take place in our state of the art research laboratories working alongside postgraduate PhD students and staff. Guaranteed interviews for Dentistry: For the top students in their year who want to pursue a career in Dentistry after graduation we guarantee interview places for studying Dentistry at the University of Birmingham. Entry requirements Number of A levels required: 3 Typical offer: AAB Required subjects and grades: Two sciences required at A-level, one of which has to be Biology or Chemistry. General Studies: Not accepted, but a good performance may be taken into account if you fail to meet the conditions of the offer Additional information: BTEC Extended Diploma in Science related subject accepted when offered in addition to an AS Level in a Science, at grade C, or good GCSEs (grade Bs). Grades DDD required. BTEC Diploma in Science related subject accepted alongside 1 A level BTEC Subsidiary Diploma accepted alongside 2 Science A levels Other qualifications like a Foundation Year, an Access to Science course, or a combination of qualifications are considered. Please contact the Admissions Tutor or Admissions for further information. Disclosure and Barring Service (DBS): Students will be required to complete a successful Disclosure and Barring Service (DBS) check before admission to the programme as we are based in a Hospital. International students: International Baccalaureate Diploma: 6,6,5 at Higher Level (to include Chemistry or Biology) with a minimum of 32 points overall. Standard English language requirements apply. Learn more about international entry requirements. Depending on your chosen course of study, you may also be interested in one of our foundation pathways, which offer specially structured programmes for international students whose qualifications are not accepted for direct entry to UK universities. Employability Our Biomedical Materials Science graduates have little problem in securing employment or further training. Many go on to do medical and biological research, while others have followed a variety of career options in health care and related areas, such as blood perfusion, optometry, audiology and work in medical device regulatory authorities. Some graduates continue their studies in pursuit of degrees in Medicine or Dentistry. A significant proportion have also entered traditional graduate career areas such as finance, publishing, accounting and IT. [-]

Medical Engineering - BEng (Hons)

University of Bolton
Campus Full time 3 - 5 years August 2017 United Kingdom Bolton

By studying the University of Bolton’s BEng (Hons) in Medical Engineering you will learn the fundamental principles of engineering that are essential to the design and maintenance of medical equipment and instrumentation. Medical engineering is an ever expanding field, and applies the fundamentals of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients... [+]

Medical Engineering - BEng (Hons) By studying the University of Bolton’s BEng (Hons) in Medical Engineering you will learn the fundamental principles of engineering that are essential to the design and maintenance of medical equipment and instrumentation. Medical engineering is an ever expanding field, and applies the fundamentals of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients. The BEng (Hons) Medical Engineering programme will provide you with the skills, knowledge and experience required to maintain and meet the changing engineering needs of the medical profession. At the outset of the course you will focus on the key principles of engineering, mathematics and human biology. You will then pursue a specialised medical engineering focused curriculum, studying topics such as medical instrumentation, medical equipment technology and biomedical devices. You will have the opportunity to study across disciplines related to health, engineering and sports, and will work with the latest technological developments related to medical instrumentation, engineering and material design solutions. About the course You will gain an advanced understanding of engineering design, medical equipment technology and biological systems. The course will be delivered through a mixture of practical laboratories, computer simulation sessions, group activities and demonstrations supported by lectures. Assessment is a mixture of coursework, practical tests and examinations. The course is delivered via a cross-departmental partnership between the departments of engineering, materials, biology and sports. The University of Bolton has a strong pedigree in these areas, and the sports department has recently undertaken a significant expansion, culminating in the opening of the new £31m Bolton One building. The University has recently embarked on an ambitious enhancement agenda as a “Teaching Intensive and Research Informed” University. To this end, ten new lecturers, with expertise in a variety of engineering and scientific disciplines, have been recruited by the Engineering, Sports and Sciences academic group at the University. Many of these lecturers will play a significant role in delivering the Medical Engineering degree programme, complementing the significant expertise and experience of staff already in place at the University. Special features Opportunities to work with internationally recognised research teams (in areas such as materials and medical devices, as well as biological systems) at the University, through both group and individual projects Study real life applications of biomedical devices in a sports science and rehabilitation context, for both elite athletes and members of the public Access to new bespoke facilities such as a state-of-the-art 3D motion capture system (with ground reaction force platforms), isokinetic dynamometer and medical simulation patient The project is recognised and supported through grants by the Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council Strongly employer informed, with a medical focus due to the industrial base in the UK North West region Use of a brand-new bespoke biomedical sensors laboratory Industrial links for students reinforced by industrial work placements What you will learn You will develop problem solving skills and the ability to design and test hypotheses. You will become proficient at working in teams, and develop your computer skills. You will also learn communication skills, helping you relate to engineers, medical practitioners and industrial end users. What you will study In the first year of your studies you will be provided with a strong foundation in mathematics, engineering and biology. In the second and third years of your studies you will pursue a specialised medical engineering focused curriculum, including imaging, biomaterials, bionics, computational modelling, biomechatronics, signal processing, medical equipment technology and medical informatics. The University’s Sport department will also play an active role in the delivery of this course, offering teaching expertise in topics such as biomechanics, as well as providing access to working with elite sportspeople. Level 1 Introduction to Biomedical Engineering; Molecular Principles of Biomedical Engineering; Introduction to Biomechanics; Medical Sensory Devices and Measurement; Clinical Anatomy and Physiology; Fundamentals of Systems and Synthetic Biology. Level 2 Biomedical Engineering Modelling & Analysis; Biomechatronics; Intermediate Biomechanics; Medical Instrumentation & Control; Group Project and Investigation; Biomedical Devices Design & Product Development. Level 3 Simulation of Medical Engineering Systems; Advanced Biomechatronic Systems; Medical Equipment Technology; Advanced Biomechanics; BEng Individual Project. Entry requirements 240 UCAS points from at least two, but preferably three, A-levels (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including English, mathematics and science You will be required to attend an interview unless you hold a level 3 qualification in mathematics or science If English is not your first language you will also normally need IELTS 6.0 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]

Biomedical Engineering - BEng (Hons)

University of Bolton
Campus Full time 3 - 5 years August 2017 United Kingdom Bolton

The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients... [+]

Bachelors in Biomedical Science in England United Kingdom. Biomedical Engineering - BEng (Hons) The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients. The course offers you the opportunity to become one of the next generation of engineers needed to meet the demands of this highly technological industry. It will educate you in the design and development processes needed for new specialist medical healthcare processes, problems and technological advances involving materials, imaging, monitoring, simulation and microelectromechanical systems. Initially you will develop a fundamental understanding of the key principles of engineering, mathematics and human biology. You will then pursue a specialised biomedical engineering focused curriculum, studying topics such as biomechatronics, biomaterials, biomedical devices and systems biology. The course is run in collaboration with the University’s Sport department, who offer expert teaching in topics such as biomechanics and rehabilitation technology, as well as access to working with elite sportspeople. You will work with the latest technological developments related to engineering and material design solutions, and will have the opportunity to study across disciplines related to health, engineering and sports. About the course You will gain an advanced understanding of engineering design, sports rehabilitation and biological systems. The course will be delivered through a mixture of practical laboratories, computer simulation sessions, group activities and demonstrations supported by lectures. Assessment is a mixture of coursework, practical tests and examinations. The course is delivered via a cross-departmental partnership between the departments of engineering, materials, biology and sports. The University of Bolton has a strong pedigree in these areas, and the sports department has recently undertaken a significant expansion, culminating in the opening of the new £31m Bolton One building. The University has recently embarked on an ambitious enhancement agenda as a “Teaching Intensive and Research Informed” University. To this end, ten new lecturers, with expertise in a variety of engineering and scientific disciplines, have been recruited by the Engineering, Sports and Sciences academic group at the University. Many of these lecturers will play a significant role in delivering the Biomedical Engineering degree programme, complementing the significant expertise and experience of staff already in place at the University. Special features Opportunities to work with internationally recognised research teams (in areas such as materials and medical devices, as well as biological systems) at the University, through both group and individual projects Study real life applications of biomedical devices in a sports science and rehabilitation context, for both elite athletes and members of the public Access to new bespoke facilities such as a state-of-the-art 3D motion capture system (with ground reaction force platforms), isokinetic dynamometer and medical simulation patient The project is recognised and supported through grants by the Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council Strongly employer informed, with a medical focus due to the industrial base in the UK North West region Use of a brand-new bespoke biomedical sensors laboratory Industrial links for students reinforced by industrial work placements What you will learn You will develop problem solving skills and the ability to design and test hypotheses. You will become proficient at working in teams, and develop your computer skills. You will also learn communication skills, helping you relate to engineers, medical practitioners and industrial end users. What you will study In the first year of your studies you will be provided with a strong foundation in mathematics, engineering and biology. In the second and third years of your studies you will pursue a specialised biomedical engineering focused curriculum, including imaging, biomaterials, bionics, computational modelling, biomechatronics, signal processing, and systems biology. A list of the modules you will study can be seen below. The University’s Sport department will also play an active role in the delivery of this course, offering teaching expertise in topics such as biomechanics and rehabilitation technology, as well as providing access to working with elite sportspeople. Level 1 Introduction to Biomedical Engineering; Molecular Principles of Biomedical Engineering; Introduction to Biomechanics; Medical Sensory Devices and Measurement; Clinical Anatomy and Physiology; Fundamentals of Systems and Synthetic Biology. Level 2 Biomedical Engineering Modelling & Analysis; Biomechatronics; Intermediate Biomechanics; Technology in Advanced Musculoskeletal Diagnosis and Treatment; Group Project and Investigation; Biomedical Devices Design & Product Development. Level 3 Simulation of Medical Engineering Systems; Advanced Biomechatronic Systems; Genomics, Environment and Athletic Performance; Biosignal Processing; Advanced Biomechanics; BEng Individual Project; Tissue Engineering and Regenerative Medicine. Entry requirements 240 UCAS points from at least two, but preferably three, A2-levels (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including English, mathematics and science. You will be required to attend an interview unless you hold a level 3 qualification in mathematics or science. If English is not your first language you will also normally need IELTS 6.0 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]

Medical Engineering with Foundation - BEng (Hons) full-time

University of Bolton
Campus Full time 4 years August 2017 United Kingdom Bolton

The BEng (Hons) Medical Engineering programme will provide you with the skills, knowledge and experience required to maintain and meet the changing engineering needs of the medical profession. At the outset of the course you will focus on the key principles of engineering, mathematics and human biology. You will then pursue a specialised medical engineering focused curriculum, studying topics such as medical instrumentation, medical equipment... [+]

Medical Engineering with Foundation - BEng (Hons) full-time By studying the University of Bolton’s BEng (Hons) in Medical Engineering you will learn the fundamental principles of engineering that are essential to the design and maintenance of medical equipment and instrumentation. Medical engineering is an ever expanding field, and applies the fundamentals of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients. The BEng (Hons) Medical Engineering programme will provide you with the skills, knowledge and experience required to maintain and meet the changing engineering needs of the medical profession. At the outset of the course you will focus on the key principles of engineering, mathematics and human biology. You will then pursue a specialised medical engineering focused curriculum, studying topics such as medical instrumentation, medical equipment technology and biomedical devices. You will have the opportunity to study across disciplines related to health, engineering and sports, and will work with the latest technological developments related to medical instrumentation, engineering and material design solutions. About the course The Foundation Year is the first year of the course and offers a transitional period of study for those students who do not have the necessary qualifications for direct entry on to the main engineering degree courses. The foundation year is an integral part of many of our four-year engineering-based courses; it will provide you with an excellent grounding in the fundamentals of science and mathematics and prepare you for degree level study. During your foundation year you will study the key engineering subjects, including Foundation Mathematics, Foundation Mechanics, Electrical & Electronic Principles, Thermal & Environmental Studies, Engineering Principles and Engineering Systems & Investigations. International students will have the option to study the English language. In addition to learning about the theories and principles of engineering, you will have the opportunity to develop valuable practical and investigative experience in our specialist engineering laboratories. During your BEng (Hons) studies you will gain an advanced understanding of engineering design, medical equipment technology and biological systems. The course will be delivered through a mixture of practical laboratories, computer simulation sessions, group activities and demonstrations supported by lectures. Assessment is a mixture of coursework, practical tests and examinations. The course is delivered via a cross-departmental partnership between the departments of engineering, materials, biology and sports. The University of Bolton has a strong pedigree in these areas, and the sports department has recently undertaken a significant expansion, culminating in the opening of the new £31m Bolton One building. The University has recently embarked on an ambitious enhancement agenda as a “Teaching Intensive and Research Informed” University. To this end, ten new lecturers, with expertise in a variety of engineering and scientific disciplines, have been recruited by the Engineering, Sports and Sciences academic group at the University. Many of these lecturers will play a significant role in delivering the Medical Engineering degree programme, complementing the significant expertise and experience of staff already in place at the University. Special features Opportunities to work with internationally recognised research teams (in areas such as materials and medical devices, as well as biological systems) at the University, through both group and individual projects Study real life applications of biomedical devices in a sports science and rehabilitation context, for both elite athletes and members of the public Access to new bespoke facilities such as a state-of-the-art 3D motion capture system (with ground reaction force platforms), isokinetic dynamometer and medical simulation patient The project is recognised and supported through grants by the Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council Strongly employer informed, with a medical focus due to the industrial base in the UK North West region Use of a brand-new bespoke biomedical sensors laboratory Industrial links for students reinforced by industrial work placements What you will learn You will develop problem solving skills and the ability to design and test hypotheses. You will become proficient at working in teams, and develop your computer skills. You will also learn communication skills, helping you relate to engineers, medical practitioners and industrial end users. What you will study In the first year of your BEng (Hons) studies you will be provided with a strong foundation in mathematics, engineering and biology. In the second and third years of your BEng (Hons) studies you will pursue a specialised medical engineering focused curriculum, including imaging, biomaterials, bionics, computational modelling, biomechatronics, signal processing, medical equipment technology and medical informatics. You can see a list of the modules you will study below. The University’s Sport department will also play an active role in the delivery of this course, offering teaching expertise in topics such as biomechanics, as well as providing access to working with elite sportspeople. Level 0 (Foundation Year) Foundation Mathematics 1; Foundation Mechanics; Electrical and Electronic Principles; Thermal and Environmental Studies; Engineering Principles; Engineering Systems and Investigations; English Language (international students only). Level 1 Introduction to Biomedical Engineering; Molecular Principles of Biomedical Engineering; Introduction to Biomechanics; Medical Sensory Devices and Measurement; Clinical Anatomy and Physiology; Fundamentals of Systems and Synthetic Biology. Level 2 Biomedical Engineering Modelling & Analysis; Biomechatronics; Intermediate Biomechanics; Medical Instrumentation & Control; Group Project and Investigation; Biomedical Devices Design & Product Development. Level 3 Simulation of Medical Engineering Systems; Advanced Biomechatronic Systems; Medical Equipment Technology; Advanced Biomechanics; BEng Individual Project. Entry requirements 120 UCAS points from least one A2-level (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including mathematics and science. Applications from students with alternative Level 3 qualifications (e.g. City & Guilds) are welcomed. An interview may be used to assess your suitability or entry point onto the programme. If English is not your first language you will also normally need IELTS 5.5 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]

Biomedical Engineering with Foundation - BEng (Hons) full-time

University of Bolton
Campus Full time 4 years August 2017 United Kingdom Bolton

The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients... [+]

Bachelors in Biomedical Science in England United Kingdom. Biomedical Engineering with Foundation - BEng (Hons) full-time The BEng (Hons) Biomedical Engineering programme at the University of Bolton will provide you with an advanced understanding of the key topics involved in meeting the engineering needs of the healthcare industry. Biomedical engineering is a rapidly growing field, applying the principles of science and engineering to the medical technologies used in the diagnosis, monitoring and treatment of patients. The course offers you the opportunity to become one of the next generation of engineers needed to meet the demands of this highly technological industry. It will educate you in the design and development processes needed for new specialist medical healthcare processes, problems and technological advances involving materials, imaging, monitoring, simulation and microelectromechanical systems. Initially you will develop a fundamental understanding of the key principles of engineering, mathematics and human biology. You will then pursue a specialised biomedical engineering focused curriculum, studying topics such as biomechatronics, biomaterials, biomedical devices and systems biology. The course is run in collaboration with the University’s Sport department, who offer expert teaching in topics such as biomechanics and rehabilitation technology, as well as access to working with elite sportspeople. You will work with the latest technological developments related to engineering and material design solutions, and will have the opportunity to study across disciplines related to health, engineering and sports. About the course The Foundation Year is the first year of the course and offers a transitional period of study for those students who do not have the necessary qualifications for direct entry on to the main engineering degree courses. The foundation year is an integral part of many of our four-year engineering-based courses; it will provide you with an excellent grounding in the fundamentals of science and mathematics and prepare you for degree level study. During your foundation year you will study the key engineering subjects, including Foundation Mathematics, Foundation Mechanics, Electrical & Electronic Principles, Thermal & Environmental Studies, Engineering Principles and Engineering Systems & Investigations. International students will have the option to study the English language. In addition to learning about the theories and principles of engineering, you will have the opportunity to develop valuable practical and investigative experience in our specialist engineering laboratories. During your BEng (Hons) studies you will gain an advanced understanding of engineering design, sports rehabilitation and biological systems. The course will be delivered through a mixture of practical laboratories, computer simulation sessions, group activities and demonstrations supported by lectures. Assessment is a mixture of coursework, practical tests and examinations. The course is delivered via a cross-departmental partnership between the departments of engineering, materials, biology and sports. The University of Bolton has a strong pedigree in these areas, and the sports department has recently undertaken a significant expansion, culminating in the opening of the new £31m Bolton One building. The University has recently embarked on an ambitious enhancement agenda as a “Teaching Intensive and Research Informed” University. To this end, ten new lecturers, with expertise in a variety of engineering and scientific disciplines, have been recruited by the Engineering, Sports and Sciences academic group at the University. Many of these lecturers will play a significant role in delivering the Biomedical Engineering degree programme, complementing the significant expertise and experience of staff already in place at the University. Special features Opportunities to work with internationally recognised research teams (in areas such as materials and medical devices, as well as biological systems) at the University, through both group and individual projects Study real life applications of biomedical devices in a sports science and rehabilitation context, for both elite athletes and members of the public Access to new bespoke facilities such as a state-of-the-art 3D motion capture system (with ground reaction force platforms), isokinetic dynamometer and medical simulation patient The project is recognised and supported through grants by the Royal Academy of Engineering as following the Engineering Gateway programme endorsed by the Engineering Council Strongly employer informed, with a medical focus due to the industrial base in the UK North West region Use of a brand-new bespoke biomedical sensors laboratory Industrial links for students reinforced by industrial work placements What you will study In the first year of your BEng (Hons) studies you will be provided with a strong foundation in mathematics, engineering and biology. In the second and third years of your BEng (Hons) studies you will pursue a specialised biomedical engineering focused curriculum, including imaging, biomaterials, bionics, computational modelling, biomechatronics, signal processing, and systems biology. You can see a list of the modules you will study below. The University’s Sport department will also play an active role in the delivery of this course, offering teaching expertise in topics such as biomechanics and rehabilitation technology, as well as providing access to working with elite sportspeople. Level 0 (Foundation Year) Foundation Mathematics 1; Foundation Mechanics; Electrical and Electronic Principles; Thermal and Environmental Studies; Engineering Principles; Engineering Systems and Investigations; English Language (international students only). Level 1 Introduction to Biomedical Engineering; Molecular Principles of Biomedical Engineering; Introduction to Biomechanics; Medical Sensory Devices and Measurement; Clinical Anatomy and Physiology; Fundamentals of Systems and Synthetic Biology. Level 2 Biomedical Engineering Modelling & Analysis; Biomechatronics; Intermediate Biomechanics; Technology in Advanced Musculoskeletal Diagnosis and Treatment; Group Project and Investigation; Biomedical Devices Design & Product Development. Level 3 Simulation of Medical Engineering Systems; Advanced Biomechatronic Systems; Genomics, Environment and Athletic Performance; Biosignal Processing; Advanced Biomechanics; BEng Individual Project; Tissue Engineering and Regenerative Medicine. Careers & professional development A degree in Biomedical Engineering is highly valued in both the UK and worldwide job markets. You will gain the analytical, technical and professional skills required to begin a career in biomedical engineering. The ageing population is increasing demand for more advanced and effective medical devices and therapeutic strategies. As a result, the need for professional biomedical engineers with the appropriate skills, knowledge and experience has never been greater. Entry requirements 120 UCAS points from least one A2-level (or equivalent) in any subjects. You should also have five GCSEs at grade C or above (or equivalent) including mathematics and science. Applications from students with alternative Level 3 qualifications (e.g. City & Guilds) are welcomed. An interview may be used to assess your suitability or entry point onto the programme. If English is not your first language you will also normally need IELTS 5.5 (or equivalent). If you do not have the required English level, you can study English with us from IELTS 4.0 (or equivalent). [-]