MSc in Biomedicine

Top 45 Masters of Science in Biomedicine 2017/2018

Biomedicine

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.

 

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Master of Science (MSc) in Clinical Microbiology & Infectious Diseases

The University of Edinburgh - College of Medicine & Veterinary Medicine
Online Full time Part time 3 years August 2018 United Kingdom Edinburgh + 1 more

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. [+]

Programme description

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. ... [-]


Biomedical Engineering

International Accelerator
Campus Full time Part time September 2017 USA Boston

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. [+]

Biomedical Engineering The Department of Biomedical Engineering offers advanced study for the degrees of Master of Science in Biomedical Engineering, and Doctor of Philosophy in Biomedical Engineering. A graduate degree in Biomedical Engineering can enhance your career opportunities or prepare you for further success in academia. Our graduates are prepared for academic, clinical, or industrial research and development in: Basic Research in Engineered Tissue Model Systems, Diagnostic Bioimaging and Sensor Systems, or Therapeutic and Reparative Neurotechnology. Master of Science in Biomedical Engineering 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. Our program has three objectives: to provide highly trained professionals to serve in academic institutions, government agencies, research labs and manufacturing and service industries to provide minority students a great opportunity for advanced graduate studies to supply additional minority graduates to the Biomedical Engineering field, where they are highly underrepresented We offer two tracks: The Professional Track is for engineers currently practicing in the biomedical industry and students interested in pursuing a management career in biomedical industry. It requires 27 credit hours of course work, a three-credit hour capstone project, and a final oral examination. The Research Track prepares graduates for further study or a career in biomedical research. On this track you’ll need a minimum of 24 credit hours of course work, one semester of the Biomedical Engineering Seminar, a minimum of... [-]

MS in Pharmaceutical Nanotechnology (MSPN)

University of South Florida College of Pharmacy
Campus or Online Full time Part time Open Enrollment USA Tampa

Nanopharmacy and nanomedicine is a unique interdisciplinary science that integrates the knowledge of natural sciences and engineering with Pharmacy and medicine to develop nanopharmaceuticals. [+]

MSc in Biomedicine. Nanopharmacy and nanomedicine is a unique interdisciplinary science that integrates the knowledge of natural sciences and engineering with Pharmacy and medicine to develop nanopharmaceuticals. Nanotechnology is a growing field with a projected growth of 13-19% between 2012 and 2022, and the creation of 5,400 new jobs. Salaries range from $50K to 80K with a MS degree. The Master’s of Science in Pharmaceutical Nanotechnolgy (MSPN) is designed to train students in the skills they will need to understand the burgeoning technological advances in science at the nanoscale and how new nanomaterials and processes can be applied to drug delivery, diagnosis, treatment monitoring, tissue regeneration, personalized medicine and more. This program aims to bridge the gap between nanotechnology and medicine, providing students with advanced knowledge, skills and practical experience within the principles, technology and applications within this exciting and innovative area. The program can completed online or on-campus. Students can begin the program during the fall, spring or summer. International students may apply, and are required to apply for an F-1 Visa if wanting to take courses on campus. Depending on the country of origin, this may take a few months. So the deadlines for international applicants may be earlier than the domestic applicant deadline. Check with the program for deadlines. Graduate Certificate programs offered include: Pharmacy Update and Practice Management Pre-Professional Pharmacy Teaching in Pharmacy Pharmacy Entrepreneurship, Leadership and Management NanoPharmaceutics [-]

Master of Science in Biomedicine

University of Southern Denmark
Campus Full time 2 years September 2017 Denmark Odense

Biomedicine is the study of understanding diseases on a molecular level and a cellular level, and you bridge the gap between the fields on... [+]

To be accepted into the master’s programme in Biomedicine, you need to complete a relevant bachelor programme.Biomedicine is the study of understanding diseases on a molecular level and a cellular level, and you bridge the gap between the fields on medicine and science. Biomedics can collaborate with doctors to help develop new diagnostics methods and disease treatments. The job is based on the newest in molecular biological knowledge and research.

 

 

Biomedical research

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 ... [-]

Master of Science in Biomedical Engineering (M.S.)

The George Washington University - School of Engineering & Applied Science
Campus Full time Part time 2 - 3 years September 2017 USA District of Columbia + 1 more

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. [+]

MSc in Biomedicine. Program Overview 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 program is strongly interdisciplinary, as students choose from a large array of areas of study across the university. The core faculty expertise includes cancer therapy, cardiac electrophysiology, biosensors, microfluidics, medical imaging and image analysis, optogenetics, robotics, and ultrasound applications in medicine. Both the M.S. and Ph.D. programs are based on the main campus in Foggy Bottom, taking full advantage of the close proximity to the School of Medicine, the Milken Institute School of Public Health, and the GW Hospital. These interactions are supplemented by collaborations with nearby clinical and research facilities, including Children’s National Health System and federal agencies such as the Food and Drug Administration (FDA) and the National Institutes of Health (NIH). Master of Science in Biomedical Engineering (M.S.) Credit hours: 30 Duration: Two years (full-time or 9 credit hours/semester) or three years (part-time or 3 credit hours/semester) Thesis options: Two - Students who choose to complete a thesis take 24 credit hours of course work and 6 credit hours for conducting thesis research. These 6 credit hours must be taken over two terms. Students who choose the non-thesis option take 30 credit hours of course work Other requirements: ​Colloquium requirement: Students must attend five seminars, workshops, or symposia... [-]

Master's Degree Programme in Biomedical Imaging

University of Turku Health and Biomedicine
Campus Full time 2 years August 2018 Finland Turku

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. [+]

masters.utu.fi Master's Degree Programme in Biomedical Imaging Biomedical Imaging – more than you can imagine! 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. The interdisciplinary curriculum provides students with a broad spectrum of state-of-the-art knowledge in biomedical imaging related to many different areas in cell biology and biomedicine. Graduating MScs will have possibilities to continue as postgraduate students to pursue career as scientist, join industry or science administration, and work in an imaging core facility or in a hospital research laboratory. MASTER DETAILS PROGRAMME IN BRIEF Programme structure Academic excellence & experience Master’s degree programme in Biomedical Imaging has been assembled on the true imaging strongholds of Turku universities. Turku is especially known for its PET Centre, and the development of super-resolution microscopy. Winner of the 2014 Nobel Prize in Chemistry, Stefan Hell did his original discoveries on STED microscopy at the University of Turku. Turku is also a leader of the Euro-BioImaging infrastructure network which provides imaging services for European researchers. Turku has a unique, compact... [-]

Master of Science in Life Science Technologies - Biomedical Engineering

Aalto University
Campus Full time 2 years August 2018 Finland Espoo Helsinki Pori Mikkeli + 3 more

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. [+]

MSc in Biomedicine. Learn to apply engineering principles and design concepts to medical and biological data! 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. Biomedical Engineering is one of the six majors offered within the Master’s Programme in Life Science Technologies (LifeTech). The programme provides a multidisciplinary curriculum focusing on important aspects of current and emerging technologies for life sciences. Studies draw on fundamental and applied knowledge on these fields with close links to the research conducted in the participating Schools and Departments. Learning outcomes After completing the major, the student will be able to characterize biophysical systems by conceptual and quantitative models explain how the laws of physics enable and constrain the operation of biological systems follow the progress of biomedical engineering deepen his/her knowledge and skills of specific topics within biomedical engineering apply existing scientific knowledge of the field to research and development in the industry start translating new research results into product development in biomedical technology Recent thesis topics of Biomedical Engineering students include, e.g. Functional magnetic resonance imaging during natural viewing; Comparison of five methods for deformable, multi-modal image registration in prostate and pelvic area; Smart digital control of superconducting... [-]

MSc in Biomedical Sciences

University of Groningen
Campus Full time 2 years September 2018 Netherlands Groningen

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? [+]

MSc Biomedical Sciences 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? The Master’s degree programme in Biomedical Sciences is strongly oriented towards the scientific background of health and disease and preclinical research. You study life processes, and their abnormalities, in the intact organism. The field in Groningen is wide and the choice is up to you – you can specialize in molecular biology or conduct research at the level of population groups. You are participating actively in all aspects of the research, from designing an experiment to conducting it, and to writing an international scientific publication. Within the degree programme Biomedical Sciences students can follow the specialisation Biology of Ageing which provides training as a researcher mainly in the field of ageing and age-related pathologies. Study Programme The master’s degree programme Biomedical sciences in Groningen focuses on the research area of life processes in health and in the course of disease development. It is a interdisciplinary research area at the interface between molecular and cellular biology, integral physiology and medical sciences. Focus on various research areas Within the master programme students may focus on various research areas, ranging from the molecular cellular biology underlying normal cell functioning to integrative physiology and behaviour underlying sustainable health, as well the molecular pathology of diseases (inflammation, autoimmunity, allergies and tumours, diseases of the... [-]

MSc Molecular & Cellular Biology of Parasites and Vectors

Liverpool School Of Tropical Medicine
Campus Full time 4 weeks September 2017 United Kingdom Liverpool

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. [+]

MSc in Biomedicine. 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. Topics will be taught through formal lectures to convey essential concepts and factual information, guided reading to explore topics in greater depth, interactive tutorials to develop critical understanding, student seminars to reinforce learning outcomes and gain practice in presentational skills, and practical sessions to gain technical competence and to illustrate important concepts in action. Course Outline - The use of recombinant DNA technology, molecular cell biology and biochemical techniques as research tools in parasitology and vector biology. - Surface antigens of parasites and their role in invasion and survival in mammalian hosts. - The molecular and biochemical basis of antigenic variation and antigenic diversity in protozoan parasites. - Surface membrane enzymes and transporters and their role in acquisition of nutrients by parasites. - Invasion and survival of intracellular parasites. - Survival and development of parasites in their arthropod vectors and parasite/vector interaction. - Unique biochemical pathways found in parasites and their potential for exploitation as chemotherapeutic targets; empirical and rational drug design. - Molecular and developmental biology of insects and other vectors. - Molecular basis of insecticide resistance in vectors. - Molecular and developmental biology of helminth parasites; structure and function of the surface membrane/cuticle. - Unusual features of gene organisation and regulation in kinetoplastid parasites. - Organelles and subcellular compartments in parasites. Academic requirements: This course is suitable for people who... [-]

Master of Science in Biomedical Engineering

Kaunas University of Technology
Campus Full time 2 years September 2017 Lithuania Kaunas

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. [+]

Biomedical Engineering Master of Science in Engineering 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. Top reasons to study @KTU Why KTU? Why Lithuania? Course outline More information about programme ktu.edu/m/biomedical-engineering Academic mobility & internship opportunities KTU students are encouraged to use academic mobility programme among which Erasmus+ is the most popular. More than 350 Erasmus+ and 100 other bilateral agreements are made for student exchange, and the students may spend 1 semester in a partner university of KTU and gain credits which are transferred into their study plan. The main universities-partners of the programme are Karlsruhe Institute of Technology (Germany), Vienna University of Technology (Austria), University of Southern Denmark (Denmark), University of Zaragoza (Spain). Internship (studies practice) can be performed additionally to study plan (in summer between the 1st and 2nd year or as a part of Research projects). The students of this programme may perform internship in Lithuania or abroad using Erasmus+, IAESTE, AIESEC, ISIEC, P4V, etc. academic mobility programmes and designated scholarship. Graduates’ internships are offered as well as a partner university of KTU and gain credits which are transferred into their study plan. The main business partners of the programme are... [-]

MSc Biomedical, Biomechanics and Bioelectronics Engineering

Brunel University: College of Engineering, Design and Physical Sciences
Campus Full time 1 year September 2017 United Kingdom Uxbridge

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. [+]

MSc in Biomedicine. 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. The programmes consist of four compulsory taught modules and two optional streams. You can apply to one of the two named degree title awards: Biomedical, Genetics and Tissue Engineering or Biomedical, Biomechanics and Bioelectronics Engineering As well as giving a solid scientific understanding, the course also addresses commercial, ehtical, legal and regulatory requirements, aided by extensive research. Students who successfully complete the course will have acquired skills that are essential to the modern biomedical and healthcare industry, together with the expertise required to enter into management, product innovation, development and research. Aims Understanding how the human body works isn’t just required learning for sports coaches, specialists in biomedical engineering can help in the design, development and operation of complex medical devices. They are used in the prevention, diagnosis and treatment, to the characterisation of tissue. This programme has a strong research and development emphasis. It aims to provide an overall knowledge base, skills and competencies, which are required in biomedical engineering, research activities and in related fields. Students will develop expertise in advanced product development and research. Industry relevance Scientific understanding is just one part of medical engineering – and the course addresses commercial, ethical, legal and... [-]

MSc in Biomedical Sciences (Cancer Biology)

University of Westminster - Faculty of Science and Technology
Campus Full time Part time 1 - 5 years United Kingdom London

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. [+]

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. You will become familiar with the genetic and cellular changes occurring in both solid and blood-borne cancers, the current and emerging technological approaches for diagnosis of the disease and the effect on pertinent cellular changes on patient prognosis. Studies on populations and the influence of genotypic variation will ensure that you are qualified to make sense of cancer statistics. You are able to tailor your programme by selecting from a menu of option modules and pursuing a research project in an area ranging from molecular through to cellular or tissue-based aspects of cancer. During the course you will join our thriving research environment and will have access to excellent laboratory facilities within the Faculty. On successful completion of the course you will be equipped to take forward your career with an in-depth knowledge of this increasingly common disease area. Modules The following modules are indicative of what you will study on this course. Core modules Advanced Cancer Biology This module will explore the role of common signalling pathways and other molecular mechanisms implicated in carcinogenesis, including the role of cancer stem cells in disease progression and metastasis. Recent advances in diagnostic methods and therapeutic... [-]

MSc in Biomedical Engineering

Linköping University
Campus Full time 2 years August 2018 Sweden Linköping

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. [+]

MSc in Biomedicine. 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. You will expand your skills and knowledge in engineering, mathematics, physics, multidimensional signal generation and analysis, and you will combine medical informatics with biomedical modelling applied to human anatomy. The first year is mainly a broad compulsory segment, with courses in anatomy and physiology, medical information systems, and signal theory. The second year comprises in-depth specialisation in one of four tracks. Programme description 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. You will expand your skills and knowledge in engineering, mathematics, physics, multidimensional signal generation and analysis, and you will combine medical informatics with biomedical modelling applied to human anatomy. The first year is mainly a broad compulsory segment, with courses in anatomy and physiology, medical information systems, and signal theory. The second year comprises in-depth specialisation in one of four tracks: Medical Informatics Biomedical Signals and Instrumentation Bioengineering Medical Imaging Each track encompasses approximately 25 compulsory ECTS credits and 15 elective credits. In the final term, you write a thesis within your chosen specialisation, at the department or in a hospital or industry. After graduating, you will have the skills to formulate and solve engineering problems in the biomedical domain, implement and... [-]

MSc in Biomedical Science

Manchester Metropolitan University
Campus Full time Part time 1 - 3 years August 2018 United Kingdom Manchester + 1 more

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. [+]

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. We collaborate extensively with hospitals in the Greater Manchester area and can offer opportunities for research projects in clinically relevant areas. The completion of a research project enables the graduate to understand the process and communication of scientific enquiry. We collaborate extensively with hospitals in the Greater Manchester area and can offer opportunities for research projects in clinically relevant areas. This degree is accredited by the Institute of Biomedical Science. Features and benefits of the course Our postgraduate Biomedical Science, Medical Microbiology, Cellular Pathology, Clinical Biochemistry and Haematology & Transfusion degree programmes are accredited by the Institute of Biomedical Science. Our biomedical research group is amongst the top 12 in the UK. In the 2014 national Research Excellence Framework, biomedical science research was rated highly with some of our research rated as world leading. Our Centre for Biomedicine represents one of the highest concentrations of health research excellence in the UK. We have an international reputation for research into the characteristics, limitations and adaptability of the human motor system in health and disease through an integrative approach that ranges from molecular biology to whole body studies of human movement. The School offers excellent facilities including specialist laboratories for blood biochemistry, biomechanics, motor control, exercise performance, cell & molecular biology and tissue culture.... [-]

MS in Biomedical Engineering

Binghamton University
Campus Full time 2 years September 2017 USA Binghamton

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. [+]

MSc in Biomedicine. MS in Biomedical Engineering The Biomedical Engineering Department offers Master of Science (MS) and Doctor of Philosophy (PhD) degrees in biomedical engineering. 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. Our curriculum is highly interdisciplinary, exposing students to faculty from each specialization and fostering theoretical and practical experience from many different perspectives. Funding is offered in the form of teaching, research and graduate assistantship stipends. In many cases teaching assistantships include health insurance and a tuition scholarship. Other funding resources are also available. As one of only 150 biomedical engineering programs in the country, our curriculum is designed to prepare students for academic or industry careers related to medical technology as well as entrepreneurial pursuits in the healthcare field. Other than core classes and electives, master’s students are required to undertake a research thesis project with the guidance of a faculty advisor. Doctoral students are expected to contribute to the advancement of knowledge in their field of study. An accelerated BS + MS degree is also available. Educational Objectives The goal of biomedical engineers is to improve human health through advances in healthcare and medicine. This includes advancing our understanding of prevention, diagnosis and treatment of human injury, disease and the health complications associated with physiologic and sociologic factors such as aging, environment and diet. In this regard, we are living in an exciting time. In the... [-]