Biomedical engineering (BME) is a recently created discipline. Its most accepted definition is the application of engineering principles to the life sciences. It combines engineering design criteria and analysis tools from mathematics, physics, and chemistry to solve problems in medicine, biology, biotechnology, pharmacy, and more.
In others words, a biomedical engineer is a skilled professional who uses principles of engineering and biological sciences to design and build health devices and systems.
Examples of BME:
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- Pacemaker
- Hearing Aid
- Prothesis
- Artificial kidneys and hearts
- Ultrasound
- Laser system for eye surgery
Biomedical engineering is a rapidly expanding industry, meaning there are always exciting roles and positions for graduates to explore. The increasing demands of healthcare allow for job security and the chance to better the lives of society is very rewarding. Biomedical engineers are at the forefront of advancements in technology and medicine. They are able to make a real difference in the lives of many individuals. As the industry is constantly evolving, the possibilities are endless.
RELATED STORIES:
- https://www.edibon.com/en/blog/how-it-works/biomedical-engineering-and-its-importance-for-the-medical-sector-
- https://isc.strath.ac.uk/blog/what-is-biomedical-engineering
- https://www.usnews.com/education/best-colleges/biomedical-engineering-major-overview
- TAKE ACTION:
- https://bulletins.psu.edu/university-course-descriptions/undergraduate/bme/
- https://bme.duke.edu/academics/courses/
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