A main point to know about biomedical engineering is that this field involves applying engineering principles to solve problems in medicine and biology, which may be related to patient care. Graduates with degrees in biomedical engineering can work in different industries, including hospitals, research institutions and manufacturing. Between 2012 and 2022, the projected growth rate for the biomedical engineering field is given as 27 percent, according to the United States Department of Labor's Bureau of Labor Statistics.
To become a biomedical engineer, a requirement can be a bachelor's degree in biomedical engineering. An alternate route into this field may be to acquire an engineering degree in any discipline and then get a graduate degree in biomedical engineering. Biomedical degree programs can require taking engineering and biology courses, including circuit design, fluid mechanics and physiology. Approximately 66 percent of biomedical engineering undergraduates continue on to get advanced degrees in this field or other specialties, as noted by Indiana University-Purdue University Indianapolis.
The field of biomedical engineering can entail developing and improving medical devices, such as prostheses and different types of implants. Working in this field can also involve designing, implementing and maintaining biomedical equipment in a hospital setting. Some other areas in biomedical engineering can include biomaterials, biomechanics, cell and tissue engineering, imaging, instrumentation and designing drug delivery systems. Biomedical engineers with advanced degrees can go on to do research work.