Earning a master’s degree is an excellent way to jump start your career. This level of education can significantly improve the level of employment that is possible. To enroll in a master’s program, an undergraduate degree is required.
What is an MSc in Biomedicine? Studies in this field typically focus on biological processes and how they can be manipulated for the health benefit of humans. It is most common for students who enter this type of program to continue after graduation and earn doctorates, possibly with the intention of entering the health care industry. Coursework usually required lab work to be taken alongside traditional classroom studies.
Students who study biomedicine often benefit in several ways. In addition to allowing them to continue their educations and enter medical schools, the level of employment possible and the average wages are often greatly increased by holding a master’s degree.
Before enrolling in a program, it is wise to thoroughly research many different options. The cost of earning a Master of Science in Biomedicine will depend on the school and program you choose, which is why it is vital to find one that matches your needs.
The health care industry is constantly growing, so the demand to medical professionals is increasing. The most common career graduates of a Master in Biomedicine program pursue is that of a medical professional, although it is also possible to work in medical writing, research, or in clinical trials. It is also possible to specialize and pursue a specific section of the health care industry. It is important to consider which field you wish to enter when choosing how to specialize while studying.
The biomedicine field is an excellent way to begin working toward entering a health care career. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Aimed at junior or early career doctors who wish to fulfil continuing medical education requirements or who wish obtain a formal qualification in Clinical Microbiology and Infectious Diseases. [+]
This new three-year, part-time, online postgraduate programme leads to the degree of Masters of Science in Clinical Microbiology and Infectious Diseases (CMID). Aimed at junior doctors currently undergoing, or about to undertake, specialty training in an infection discipline, this programme is open to trainees in the UK and worldwide. This degree will also be attractive to those who have completed their training but wish to fulfill continuing medical education requirements or those who wish obtain a formal qualification in Clinical Microbiology and Infectious Diseases. The programme is aligned with JRCPTB and RCPath training in infection disciplines: Combined Infection Training and Higher Specialty Training in Infectious Diseases, Medical Microbiology and Medical Virology. This programme is designed to support trainees/specialists in preparation for FRCPath Part 1/Diploma in Infection, Infection Specialty end of training assessments and hospital-based practice. Programme participants will have access to key texts and research bases and will have direct contact with leading clinicians and clinical scientists, providing a repository of information on infection disciplines that can be accessed at any time. ... [-]
Many biomedical engineers, particularly those whom work in research labs, need a graduate degree. The Master of Science in Biomedical Engineering provides students and practicing engineers with the theoretical and practical experience needed to succeed. [+]
Nanopharmacy and nanomedicine is a unique interdisciplinary science that integrates the knowledge of natural sciences and engineering with Pharmacy and medicine to develop nanopharmaceuticals. [+]
Biomedicine is the study of understanding diseases on a molecular level and a cellular level, and you bridge the gap between the fields on... [+]
The Department of Biochemistry and molecular biology at University of Southern Denmark focusses their research on:The construction and organisation of genes The regulation of gene activity How gene information is translated into protein through RNA ... [-]
Offered through the Department of Biomedical Engineering, the M.S. program in Biomedical Engineering is designed to prepare students to apply engineering principles to problems in medicine and biology; to understand and model attributes of living systems; and to synthesize biomedical systems and devices. [+]
The Master's Degree Programme in Biomedical Imaging trains professionals with thorough theoretical understanding and practical skills of diverse imaging methods and technologies. It provides the students with strong knowledge either in cellular biology, anatomy and physiology or biophysics, depending on the area of specialization. Students will work in highly international environment and gain excellent theoretical and practical skills in a wide range of imaging techniques and applications as well as image analysis. Also an understanding of the use of multimedia in a scientific context and excellent academic writing skills are emphasized. [+]
Biomedical Engineering builds on a solid basis of physics and technology to characterize, monitor, image and influence biological systems. This major introduces the student to the physics of biological systems in order to efficiently measure, image, and model such systems. In addition, it provides the student with basic knowledge and skills needed for developing novel engineering solutions for diagnosis and treatment in health care. [+]
What causes a disease? What can be done about obesity and type 2 diabetes? Why does one person become depressed and another does not? What are the underlying mechanisms of disease and is the role of the brain? [+]
This course aims to provide students with knowledge and critical understanding of the molecular biology, cell biology and biochemistry of eukaryotic parasites and their vectors. [+]
Aging population poses difficult challenges to the health care system, and Biomedical Engineering is helpful in finding solutions for those challenges. During studies, the students deepen their theoretical knowledge and develop their research skills for development and improvement of the equipment for medical diagnostics, therapy and health monitoring. The graduates work in the industry of medical devices, research centres, and state regulatory institutions. [+]
The two MSc programmes in Biomedical Engineering draw on the wide experience of academic staff at Brunel's College of Engineering, Design and Physical Sciences, that ranges from the development of equipment and experiments for use in space, to research carried out in collaboration with hospitals, biomedical companies and research institutions. [+]
Improved global life expectancy has resulted in a cancer epidemic. It is well recognised that accurate early diagnosis is an essential aspect of the administration of increasingly expensive and tailored cancer treatment care plans. The Biomedical Sciences (Cancer Biology) MSc programme has been devised to provide knowledge of key aspects of this increasingly important disease area. [+]
This programme combines fundamental concepts and knowledge in engineering, biology and medicine to develop innovative technologies, materials, processes and systems, with the aim of improving healthcare and contributing to translational research. [+]
This general route focuses on the biological aspects of disease processes. Graduates will gain up-to-date, relevant and applied experience of biomedical science, develop broad knowledge of the subject base and acquire skills for practice at Higher Specialist Level. [+]
Our programs are flexible and affordable options for students dedicated to advancing healthcare and medicine through the understanding of prevention, diagnosis and treatment of human injury and disease. [+]