Biomedical Engineering 7000 Engineering subject sub_topic A biomedical engineer learns to use traditional engineering principles and to apply them in order to analyze and solve problems in biology and medicine, with the end goal being the improvement of health care. This degree is a good choice for students who want to help people, who enjoy working with living systems, and who want to apply advanced technology to medical care problems. A Biomedical Engineer's job function may include designing instruments, devices and software for medical treatment and research. Students usually choose to study Engineering or Biomedical Engineering in college, while others may major in chemical, electrical, or mechanical engineering with a specialty in biomedical engineering. Many students choose to pursue graduate level work in Biomedical Engineering, where they obtain valuable research experience. 0 0 0 7160 <p>Biomedical Engineering is a field of study that combines biology, medicine and engineering. Most biomedical engineer employers require their employees to at least have a bachelor's degree in this specific field of study. Some employers with more advanced and technical job offerings require their employees to have completed their master's degree.</p> <p>A biomedical engineer usually works in a university, hospital or industrial environment to develop new formulas, ideas and physical materials that can advance the technology of medicine and wellness. They do this through testing, experimentation and growth of a product or idea. Most of the development is done in teams of biomedical engineers who all work together towards a specific goal. It is important for a biomedical engineer to understand the human body and the ailments it experiences. Biomedical engineers will often work on a single project for a long period of time until the concept or model they have created has proven to be infallible. A biomedical engineer should be familiar with the processes of creation, experimentation and development in order to achieve this goal. </p> <b>Specializations in Biomedical Engineering</b> <p>There are several fields of biomedical engineering that focus on different types of advancements in technology. A student may have to choose which line of study he or she wants to pursue while earning a biomedical engineering degree. Bioinstrumentation is a focus of study mainly involving computers to develop new devices for treatment. Biomechanics is a field of study where engineers use the principles of mechanics to solve health issues. Working with materials that will ultimately be used in the body for survival is called biomaterial engineering. Clinical engineering is the development of medical databases and the improvement of medical equipment used in the medical field. Medical Imaging is a field of study related to the processes that are used to identify health issues and medical problems. Medical Imaging biomedical engineers focus their careers on improving the technology that finds ailments in the human body. Another specific form of biomedical engineering study is called Rehabilitation Engineering. These engineers develop new ways for the mentally and physically impaired to become more self sufficient. Systems Physiology is a field of study for those interested in mathematical equations. These engineers study how the human body works and reacts to medicines or elements. They develop new formulas to record and track these reactions.</p> <b>Coursework</b> <p>Depending upon the field of study the biomedical engineering student has chosen, the type of classes may vary. The basic coursework involves the study of the human body and its functions. More in-depth coursework may then include courses pertaining to the mechanics of biofluid, diagnostic imaging physics, the fundamentals of nueroengineering or the design of medical drugs. While there are several general courses every biomedical engineering major must take, each student can choose his or her own electives based on the field of study he or she is interested in.</p> <b>Career and Salary Outlook</b> <p>Depending upon the company and the specific field of biomedical engineering, a bachelor's or master's degree may be required for employment in an entry level position. Most biomedical engineers today are employed in the medical equipment and supplies manufacturing industry. Many pharmaceutical companies also employ biomedical engineers in their drug development department. The current outlook for the field includes a slow growth of about 21% and the average salary of a biomedical engineer was $79,610 in 2007, according to the Bureau of Labor Statistics. Those engineers working in the pharmaceutical development field were recorded to have a slightly lower salary while those in the scientific research field of biomedical engineering came in at a higher than average salary.</p> biomedical-engineering Biomedical Engineering Biomedical Engineering 7390, 7300, 8040, 7000, 8240, 8220 Accredited Degrees & Certification Training in Biomedical Engineering 1 0