A career in the field of Biomedical Engineering is as this important technical area there are many ways to chart your academic career in this exciting field. Today Biomedical engineers use their expertise in biology, medicine, physics, mathematics, engineering science, and communication to make the world a healthier place. The challenges created by the diversity and complexity of living systems require creative, knowledgeable, and imaginative people working in teams of physicians, scientists, engineers, and even business professionals to monitor, restore, and enhance normal body function. The biomedical engineer is ideally trained to work at the intersection of science, medicine, and mathematics to solve biological and medical problems.

The field of biomedical engineering encompasses those people with formal degrees in biomedical engineering as well as those with degrees in other engineering disciplines who, through coursework or through experience, have gained mastery over one or more areas of biomedical inquiry and application. Very occasionally, biologists or biomedical scientists who have gained skills in engineering also are considered members of this field.

How is it different from biomedical engineers to other engineers?

Biomedical engineers must integrate biology and medicine with engineering to solve Problems related to living systems. Thus, biomedical engineers are required to have a solid foundation in a more traditional engineering discipline, such as electrical, mechanical, or chemical engineering, and increasingly, materials science. Most undergraduate biomedical engineering programs require students to take a core curriculum of traditional engineering courses. However, biomedical engineers are expected to integrate their engineering skills with their understanding of the complexity of biological systems in order to improve medical practice.