Biomedical engineering is the application of engineering principles to the solution of problems in biology and medicine with the goal of improving health care. It is a vibrant and growing branch of engineering in which knowledge and advanced technological skills are developed and applied to define and solve problems in the life and health sciences.
Students choose this field of study to be of service to people. They enjoy the excitement of working with living systems. They enjoy becoming a health care professional who can apply advanced technology to the complex problems of medical care. Biomedical engineering is an expanding field and one that is vital to the future of health care in our world.
Biomedical engineers work in a multitude of fields, including the medical device industry, software engineering, data acquisition, innovative design and development, research, manufacturing, equipment testing and field servicing, clinical patient evaluation, technical documentation, sales, hospital equipment selection and support, teaching, and management. Our graduates also attend medical, dental and law schools, become physical therapists, clinical engineers, and enter graduate school in engineering or the life sciences.
Medical equipment and supply industry companies such as Abbott Labs, AKSYS, Applied Biometrics, Bausch & Lomb, Baxter, Biomet, CPI Guidant, Criticare, Data Sciences, Hewlett Packard, Howmedica Leibinger, Johnson Wax, Johnson & Johnson, Microvena, Medtronic, Ohmeda, Richardson Electronics, St. Jude Medical, SCIMED, Schneider, Stryker Instruments, 3M, and U.S. Surgical employ biomedical engineers. Precision instrument companies such as Eastman Kodak, E G & G, Polaroid and Siemens hire biomedical engineers. Drug industry and genetic engineering companies such as Merck, Lilly (Eli), Pfizer, Pharmacia Biotech, Amgen and Genentech employ biomedical engineers. Medical centers, hospitals, government agencies, and the U.S. Army, Air Force and Navy hire biomedical engineers. Many of the above-named companies, as well as medical centers and local area companies such as Allen Bradley, General Electric Medical Systems, Marquette Medical, Mortara Instruments, Sorba Medical and Wisconsin Bell, have hired recent Marquette biomedical engineering grads.
Yes. The Co-operative Program combines the last two years of academic study with practical work experience. The Co-op Program enables the student to develop professionally as well as academically, explore and clarify career goals, and earn money to apply toward their educational expenses.
There are three tracks or options in the curriculum: bioelectronics, biomechanics and biocomputing.
Yes. Approximately 50 percent of graduating seniors typically pursue a graduate degree or attend medical, dental or law school. Our alumni have attended such graduate schools as Case Western Reserve, Drexel, Duke, Johns Hopkins, Northwestern, MIT, the University of Pittsburgh, RPI, Rush University, Stanford, the University of Utah, Vanderbilt and Washington University. Many of our graduates also attend Marquette and participate in the numerous collaborative research opportunities at the Medical College of Wisconsin and Zablocki VA Hospital. After receiving their graduate degrees, these students usually enter research and/or teach in educational and/or medical institutions.
Yes. In all three biomedical engineering tracks, the requirements for entrance to most medical schools can be met. Students preparing for medical school should work with their Biomedical Engineering Advisor to ensure they are taking the required courses as their biomed electives (such as Organic Chemistry 1&2 and Biochemistry & the Molecular Basis of Biology). Students interested in pursuing a dental, law, MBA or veterinary medicine degree can take appropriate course electives to enable their entrance into any of their chosen fields. The biomedical engineering degree provides the broadest possible undergraduate curriculum with an emphasis on science a student can obtain.