Biomedical clinical engineers work with various medical professionals and scientists in order to develop new innovations in health care, such as diagnostic equipment and drug therapies. The minimum educational requirement for this profession is a bachelor's degree, preferably earned through an ABET-accredited program.
A career as a biomedical clinical engineer might be of interest to individuals with an aptitude for math and science as well as a desire to help develop improve health care delivery plans and processes. These engineers often work with medical scientists and other health care professionals to design new medical equipment, pharmaceutical products or patient care procedures. They can also be tasked with managing an organization's medical equipment systems. To enter this career field, aspiring biomedical clinical engineers will need to earn at least a bachelor's degree from a program approved by the Accreditation Board for Engineering and Technology (ABET).
|Required Education||Bachelor's degree|
|Projected Job Growth (2014-2024)*||23% for all biomedical engineers|
|Average Salary (2015)*||$91,230 for all biomedical engineers|
Source: *U.S. Bureau of Labor Statistics
Biomedical clinical engineers use their design skills and knowledge of biological systems to help develop everything from artificial tissues and drug therapies to diagnostic equipment and patient care procedures. They might also be responsible for managing an organization's medical equipment, whether by administering the computer systems that process equipment data or overseeing service contracts. In some cases, biomedical clinical engineers may oversee biomedical equipment technicans and other maintenance staff who are responsible for ensuring equipment works safely and effectively.
All entry-level engineering positions require the completion of a bachelor's degree program accredited by ABET. Biomedical engineers typically enter the job field after earning a bachelor's degree in biomedical engineering. These undergraduate curricula include several science and math courses in subjects like calculus, linear algebra, biology, physiology and chemistry. Students also take engineering design, clinical instrumentation and computer programming classes in addition to courses that allow them to pursue concentrations in such areas as tissue engineering, computational bioengineering or biomechanics.
Employers of biomedical clinical engineers expect job applicants to have strong analytical and problem-solving skills. Biomedical clinical engineers must also have excellent communication skills and an ability to implement various team members' ideas. A familiarity with medical, scientific and computer-aided design software is also necessary.
Salary Info and Career Outlook
Employment of biomedical engineers is projected to increase 23% from 2014 to 2024, according to the U.S. Bureau of Labor Statistics. Their average salary was $91,230 as of May 2015. Biomedical engineers working for professional and commercial equipment wholesalers tended to earn the highest salaries, averaging nearly $107,000 as of 2015.
Working as a biomedical clinical engineer requires excellent problem-solving skills and the ability to think analytically. Due to the range of responsibilities a biomedical engineer might have, there are several industries employing professionals in this field, including medical equipment manufacturing, hospitals, and research and development services. The job outlook for this field is excellent, with a much faster-than-average increase in employment openings between 2014 and 2024.