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Biomedical Engineering

Majoring in Biomedical Engineering

Recently, Forbes Magazine did a study to find the “most valuable” college major. What made a major “valuable” in their eyes? Competitive median starting pay, median mid-career pay, growth in salary, and wealth of job opportunities. The analysts for the Forbes article concluded that Biomedical Engineering is the major that is most worth your tuition, time and effort.
But what is Biomedical Engineering?
The terms bioengineering and biomedical engineering are often used interchangeably. Sometimes, however, bioengineering refers to issues involving animal health and/or plants and agriculture, whereas biomedical engineering refers to a focus on human health.
There are four fields within biomedical engineering: clinical engineering, medical devices, medical imaging and tissue engineering. Clinical engineering involves operating and supervising the use of equipment used within hospitals and medical facilities. Medical device engineering is concerned with the invention and operation of diagnostic devices, devices that help cure diseases or devices that help the body operate normally such as pacemakers,diabetic pumps or dental implants. Medical imaging is concerned with the invention and use of equipment that takes images of the body to help diagnose and create treatment options for patients,including X-Ray machines and ultrasound equipment. Tissue engineering focuses on developing and implementing artificial organs.In some cases this also includes inventing technologies to regrow organs orcreate entirely new ones. Other specialties within biomedical engineering are biomaterials, biomechanics, rehabilitation, engineering, and orthopedic engineering.
Bioengineering programs provide students with the scientific knowledge and engineering tools necessary for graduate study in the engineering or scientific disciplines,continued education in health professional schools, or employment in industry. Top notch programs provide students with a rigorous education in engineering and fundamental sciences, offer experience in state-of-the-art research in bioengineering, and teach the problem-solving and team-building skills necessary to succeed in a bioengineering career.
All students begin with foundation courses in biology, physics, chemistry, and math. They then take courses in basic engineering principles, computer science, statistics,and applied math. The last two years of most undergraduate programs include courses in materials, fluid mechanics, signals and systems, biomedical imaging,and ethics, among others. Students often have the opportunity to choose electives tailored to their individual interests.
Graduates with a bachelor’s degree in bioengineering often work in collaboration with healthcare professionals. Effective communication skills, the ability to work in multidisciplinary teams, and an appreciation of the ethical and regulatory constraints governing the development, manufacture,and distribution of health care products, are all required.
Demand for biomedical engineers will be strong because an aging population is likely to need more medical care and because of increased public awareness of biomedical engineering advances and their benefits. The Bureau of Labor Statistics projects a 23% growth of job opportunities in this field.
Engineering programs should be ABET accredited, meaning they meet the stand-ards established by the Accreditation Board for Engineering Technology. Look for this accreditation when researching college programs.

 

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