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Biomedical engineering applies engineering principles to biology and medical treatment. Biomedical engineers work on medical devices, genetics, pharmaceuticals, and more. They require training in both engineering and biology and often pursue doctoral degrees. The field is expanding, and job opportunities are plentiful. Biomedical engineers work in various settings, including private companies, laboratories, government, and non-profit organizations. Annual conferences and seminars offer opportunities for continuing education and networking.
Biomedical engineering is a scientific discipline that brings the principles of engineering to biology and medical treatment. Engineers are world famous for inventing innovative approaches to problems and they like to say that no problem is too big for an engineer. Transforming this proactive attitude into the field of medicine, biomedical engineers work on a wide variety of things, from artificial hearts to cultured skin grafts, in hopes of advancing medical treatment.
Individuals who wish to study biomedical engineering must undergo training in both engineering and biology. Many universities have biomedical engineering departments to meet the need for new biomedical engineers and the growing interest in this field, and students typically pursue doctoral degrees in this field so they can learn as much as possible.
A wide variety of things come under the purview of biomedical engineering. Most new medical devices, for example, are built by people in this field, including things like equipment used in medical care, medical imaging systems, artificial organs, prosthetic limbs, and hearing aids. The ability to develop new medical devices is a critical aspect of biomedical engineering, with researchers also working on things like biocompatible materials so the body doesn’t reject implants, along with advanced prosthetics that can interface with the brain and system nervous.
Biomedical engineers also work in genetics, researching the human genome and examining the possibility of growing organs and skin for grafts and transplants, and they research pharmaceuticals, life support systems, and even cosmetic surgery. Biomedical engineering has led to better artificial hip joints, better breast implants, and new technologies for everything from bone grafts to blood sampling equipment.
The field of biomedical engineering has contributed immensely to medical science since the early 20th century, when biomedical engineers began formally organizing themselves and committing themselves to work on the problems facing the medical community. Today, biomedical engineers can be found working for private companies, collaborating in laboratories with other medical researchers, performing research for the government, teaching new generations in their field, and working with non-profit organizations to develop low-cost medical solutions for the world in developing .
This field is ever-expanding, and in general, someone with a biomedical engineering degree will have no problem finding a job. A number of commercial and professional organizations for biomedical engineers hold annual conferences and continuing education seminars for individuals to hone their skills in the field and connect with one another.
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