Bioengineering Masters Degree Programs with Course Descriptions

Master's degree programs in bioengineering integrate medicine, biology and health with engineering concepts. Graduates are engineers who work to solve health issues by designing and implementing medical devices and procedures.

Essential Information

A Master of Science in Bioengineering program is designed to provide an in-depth understanding of physiology and engineering, preparing students for the development of new devices, treatments, and materials in the broader field of healthcare. Most master's degree programs require a research component, and some offer both thesis and non-thesis options.

Bioengineering master's programs require candidates to hold a bachelor's degree in an engineering or biological field. Entering graduate students are expected to have completed upper-level coursework in mathematics, such as differential equations and linear algebra. Prerequisites also include coursework in physical chemistry and cellular biology.

Master of Science in Bioengineering

A master's program in bioengineering contains advanced coursework intended to cultivate a broad level of expertise in graduates. Students develop expertise in the application of physical chemistry and biochemistry principles through the use of materials like implants and medical devices, cell culture processes, drug delivery systems and diagnostics. In addition to studying physiological concepts like cellular processes and gene structure, students learn about the technical aspects involved in engineering biomedical devices and instrumentation. Along with a required core group of courses, graduate electives and specialty coursework include medical imaging, nanotechnology, and molecular bioengineering. Additional topics may include:

  • Biostatistics
  • Molecular biology
  • Physiology
  • Medical sensors and devices
  • Medical imaging

Employment Outlook and Salary Info

Graduates with a master's degree in bioengineering typically begin careers as biomedical engineers, combining their knowledge of engineering, biology and medicine principles to develop procedures and devices to solve health-related problems. According to the U.S. Bureau of Labor Statistics (BLS), demand for biomedical engineers may increase at a much faster than average pace of 23% from 2014-2024; additional jobs in this field will be due to the country's aging population and increased focus on health issues. As of May 2015, the BLS reported that the annual median salary for biomedical engineers was $86,220.

Continuing Education Information

Although there are no pre-determined continuing education requirements for biomedical engineers, those working in the field are encouraged to attend seminars, conferences and other educational opportunities to stay apprised of technological changes and medical advances. Graduates of a master's degree program in bioengineering are also eligible to further their education through a Ph.D. program in the field.

An advanced degree in bioengineering will allow students to use their knowledge of physiology and biology to develop new drugs and medical treatments in various areas of healthcare. Master's programs in bioengineering will provide students with in-depth education and research in this fast-growing field.

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