Master of Science in Biomedical Engineering
- Design equipment, devices, and processes such as artificial internal organs and prosthetics, pharmaceutical development and manufacturing processes, and machines for diagnosing medical problems or performing robotic-assisted surgery.
- Pipeline to graduate study or an immediate gateway to a dynamic biomedical engineering career.
The biomedical engineering master’s degree produces nimble professionals who can leverage the power of technology, design, and engineering to make positive, powerful impacts on human health and patient care.
Biomedical Engineering Is Critical to the Future of Health Care
Biomedical engineering applies the principles and theories of engineering to solve problems in the wide-ranging fields of medicine and health care. Biomedical engineers can be found working alongside scientists, other engineering professionals, and medical practitioners to evaluate the complex, interdependent systems of the human body in order to develop and research effective solutions to improve or enhance a patient’s quality of life. These solutions can range from life-saving devices such as pace-makers and artificial organs; to life-enhancing mechanisms like prosthetics, artificial joints, and wearable medical devices; to medical instrumentation, such as next-generation MRI, CT, that enable more efficient medical procedures; to manufacturing processes involving live cells.
Biomedical Engineering Courses
Through core courses and electives, RIT’s biomedical engineering master’s program will provide the knowledge you need to develop and define your knowledge of biomedical engineering principles and practices to prepare you to design biomedical engineering systems that result in applications that improve and enhance the health and well-being of patients. The degree culminates in a two-course sequence in a biodesign project and presentation. You will conduct an assessment of a medical problem or challenge and develop a solution taking into account stakeholder and market analysis, and regulatory and intellectual property considerations. In the second course, you will use the knowledge gained in the first course to inform an advanced biodesign strategy that includes the design and fabrication of product concepts using rapid prototyping tools.
Careers in Biomedical Engineering
Biomedical engineering is a rapidly growing field with a variety of career opportunities for students with an interest in combining engineering with medicine. It’s a branch of engineering that uniquely leverages the vast knowledge base of biology and medicine to solve problems focused on health care and the human body. Biomedical engineers combine their knowledge of engineering with biology, anatomy, and physiology to create devices and systems for a variety of health care issues. The need for sophisticated diagnostic and therapeutic equipment, as well as manufacturing processes that use cell culture and tissue culture techniques has fueled the demand for biomedical engineers who commonly work in multidisciplinary teams to develop devices, equipment, and processes for a number of applications.
Biomedical engineers can be found working in a variety of settings to work performed by a to improve the health and well-being of others, including biocompatibility testing, engineering artificial organs and tissues, developing new drug delivery systems, creating or modifying innovative medical devices, enhancing medical imaging techniques, or designing procedures to meet regulatory requirements: . Positions are available in academia, hospitals and clinics, laboratories, manufacturing settings, and more. Biomedical engineers will find dynamic careers in which they are uniquely qualified to:
- Design systems and products, such as artificial internal organs, artificial devices that replace body parts, and machines for diagnosing medical problems
- Work with life scientists, chemists, and medical scientists to research the engineering aspects of biological systems of humans and animals
- Collaborate with pharmaceutical companies to develop new drug therapies
- Evaluate the safety, efficiency, and effectiveness of biomedical equipment
Master’s in Biomedical Engineering: A Pathway To An Immediate Career or Advanced Study
The MS in biomedical engineering equips you to launch a career immediately after earning the degree, or to pursue advanced study in any number of graduate or professional programs, including engineering, science, medicine and health care professions.
https://www.rit.edu/study/biomedical-engineering-ms