With expertise spanning physiology, biology, healthcare and health informatics, mechanics, and engineering, biomedical engineers can combine their diverse skills to create solutions to continuing worldwide health issues, helping to change how patients are treated and lowering the cost of care.
As our population lives longer, the demand for biomedical devices and procedures is expected to grow.1 Driven by access to by-the-minute news, the tech-savvy public is more aware of breakthroughs in medical technology and advancements than ever before.
Because of this awareness, more and more people will continue to seek out biomedical solutions to their complex health concerns, each time expecting a newer, more convenient and more advanced means of treatment.1
With technology advancing and the demand for cutting-edge medical equipment and devices expanding, biomedical engineering, sometimes called bioengineering, is a rapidly growing field. From 2014 to 2024, employment for biomedical engineers is projected to grow a staggering 23 percent, growing more than three times faster than other careers.2
In our video below, professor Dominique Durand, program director of the online Master of Science in Biomedical Engineering program at Case Western Reserve University, explains how critically important biomedical engineering is to healthcare and the medical community today.
As one of the best biomedical engineering schools in the United States, Case Western Reserve University strives to use our partnerships in the industry to research and develop innovative solutions to serious health concerns, helping to improve how doctors diagnose and treat patients.
The invaluable role of perspective and curiosity in engineering is immeasurable. All good engineers know to question what they believe and to push the limits in their studies and theories until they’re groundbreaking. Our researchers, professors and students are trying to find innovative solutions by asking questions, such as:
Would better communication with nervous systems potentially improve recovery results for patients with epilepsy and paralysis?
- Could we utilize an interactive, anatomically correct holographic rendering of the body and its organs to help medical students and practicing physicians learn or improve surgical practices?
- How can we make life safer for active firefighters?
- Can we better protect our athletes with a digital concussion monitoring system?
And these are just some of the innovative research questions Case Western Reserve's Department of Biomedical Engineering is asking. Imagine what you could do if you studied at CWRU and joined such a game-changing field.
Now that you know how important the field is, learn more about the importance of a master’s degree in biomedical engineering.
1Retrieved on August 23, 2017, from www.bls.gov/ooh/architecture-and-engineering/biomedical-engineers.htm#tab-6 2Retrieved on August 23, 2017, from www.bls.gov/ooh/architecture-and-engineering/biomedical-engineers.htm