The application of engineering ideas and problem-solving methodologies to biology and medicine is known as biomedical engineering. This is evident throughout healthcare, from diagnosis and analysis to treatment and recovery, and has made its way into the public consciousness through the proliferation of implantable medical devices like pacemakers and artificial hips, as well as more futuristic technologies like stem cell engineering and 3-D printing of biological organs.
Engineering is a creative discipline that has given birth to everything from autos to airplanes, skyscrapers to sonar. Biomedical engineering is concerned with making advancements in human health and health care on all levels.
What Makes Biomedical Engineering Unique?
Biomedical engineers are distinguished from other engineering disciplines that have an impact on human health in that they employ and use a thorough understanding of contemporary biological concepts in their engineering design process. Biomedical engineering combines aspects of mechanical engineering, electrical engineering, chemical engineering, materials science, chemistry, mathematics, and computer science and engineering to improve human health, whether it's an advanced prosthetic limb or a breakthrough in identifying proteins within cells.
Design and development of active and passive medical devices, orthopedic implants, medical imaging, biomedical signal processing, tissue and stem cell engineering, and clinical engineering are just a few of the subdisciplines of biomedical engineering. To learn more about being a biomedical engineer, fill out the form below.
What are the responsibilities of Biomedical Engineers?
Biomedical engineers operate in a wide range of environments and fields. In industry, there are opportunities for innovating, designing, and developing new technologies; in academia, there are opportunities for furthering research and pushing the boundaries of what is medically possible, as well as testing, implementing, and developing new diagnostic tools and medical equipment; and in government, there are opportunities for establishing medical device safety standards. Many biomedical engineers work for cutting-edge start-up companies or form their own businesses.
Tissue and stem cell engineers are attempting to recreate human organs artificially, assisting in transplants and improving the lives of millions of people across the world. New implanted and external medical devices, such as pacemakers, coronary stents, orthopaedic implants, prostheses, dental goods, and ambulatory gadgets, are developed by medical device experts. Clinical engineers guarantee that medical equipment used in clinical settings is safe and dependable. Biomedical engineering is a very wide discipline with a lot of specialty options.
What types of jobs are available in biomedical engineering?
Biomedical engineering has been called the finest health-care job by Forbes and CNN Money in recent years. Biomedical engineering offers practically limitless possibilities. Technology, materials, and knowledge advancements imply that tomorrow's discoveries are hardly imaginable today. After all, biomedical engineering as a field did not exist a generation ago.
Individual interests influence career pathways in biomedical engineering: the field's vast scope allows biomedical engineers to specialize on areas that interest them, such as biomaterials, neuromodulation devices, orthopaedic repair, or even stem cell engineering. Biomedical engineers frequently combine problem-solving skills and technical knowledge with a focus on medicine, healthcare, and helping others. Biomedical engineering has seen a lot of innovation—and a lot of opportunity—as a result of this hybridization.
What do Biomedical Engineers Get Paid?
Biomedical engineers, like many other engineering areas, are well compensated. In comparison to other fields, they earn significantly more at each point of their careers. A average first job as a biomedical engineer pays more than $61,000, with many people making much more. More advanced positions pay well into the six figures. The average pay for a biomedical engineer is $100,000, according to the US Department of Labor, with the top ten percent of biomedical engineers earning $150,000.
Biomedical Engineering's Future
Medical diagnostics treble in value every year in terms of market value. The way medicine is practiced is changing as a result of revolutionary advancements in medical imaging and diagnostics. New medical gadgets developed in biomedical engineering research facilities throughout the world have drastically changed the way physicians treat sickness and injuries, improving the quality and duration of human life.
Finally, the future of biomedical engineering is dependent on both the challenges and hurdles we uncover as well as breakthroughs and accomplishments in domains like as chemistry, materials science, and biology. Interdisciplinarity, like most other areas, means that innovation comes from a variety of sources at the same time.