Career In Biomedical Engineering

For every interest, there is a career, and with medicine and healthcare rapidly expanding its horizons, biomedical engineering is fast emerging as a career prospect that is not only highly rewarding but also very sought after.

Biomedical Engineering combines the knowledge of biology with the technical expertise of electrical and electronic engineering to provide devices, systems and materials that can be used in the field of healthcare. Most engineering colleges offer undergraduate degrees in biomedical engineering, which require a basic prerequisite of Physics, Chemistry and Mathematics, with a cursory knowledge of Biology.

Three major sub-disciplines emerge with careers in biomedical engineering – Equipment management and maintenance in hospitals, industrial manufacture and maintenance, and researching new developments in a laboratory. As a biomedical engineer, you have the choice to create new technology in a laboratory, explore the hand-on training and usage of already established and working systems, or you can devote yourself to applying your skills to production and efficient industry management.

  • Working in Hospitals

Biomedical engineering is a new and exciting frontier in medical science that has produced many innovations of the modern world – this field has introduced diagnostic equipment, pacemakers, dialysis machines and many other such discoveries that have made lives easier for people around the world. In the hospital, you can gain valuable insight on the working of each of these machines in a real-world setting. Hospitals routinely use many machines created by biomedical engineers, and each of these machines can be used for diagnostic testing or treatment.

  • Working in Industrial Manufacture

Industry manufacture relates to the mass production of the machines produced by research. While this can refer to large MRI and CAT scan equipment, industry manufacture also mass-produces tissue grafts, organs and bones. Thus, industry manufacture is not solely limited to just iron, steel and wiring – it is also used to create fragile living cells, and this requires great dedication and patience.

  • Research and Innovation

A degree in biomedical engineering can also prepare you for a lifetime of academics and research. What has already been created can always be bettered, and there is always a better, more advanced technique. While one side of engineering is to work on mass-producing faster, cheaper and more efficient alternatives, the starting point of any science is research, and if you have a thirst for knowledge, or would eventually like to convert your love for the subject into an academic career, consider a career in research.

Healthcare is never out of style and will never be affected by the economic downturn, thus if you would like a career in a cutting-edge, stable field, consider biomedical engineering!

error: Content is protected !!