Career Field description
Biomedical engineering is the application of methods and concepts from engineering science and engineering technology to scientific and practical problems of medicine and health care. Biomedical engineers develop and design biomedical devices, systems, and processes. ” Biomedical Engineers use the principles of engineering to solve health related and medical problems. They do a great deal of research in union with life scientists, chemists, and medical professionals to design medical devices like artificial hearts, pacemakers, dialysis machines, and surgical lasers.
Some perform research on biological and life systems or investigate ways to modernize laboratory and clinical procedures. Frequently, biomedical engineers supervise biomedical equipment maintenance technicians, investigate medical equipment failure, and recommend new equipment for hospitals and install it. A biomedical engineer is responsible for creating new procedures and devices that effectively address health issues. “In designing products such as artificial organs or prosthetic devices, you’ll be putting both your engineering and medical skills to use.
Career Field description Essay Example
Designing and building complicated electrical circuits, computer simulations and the software that powers medical equipment is the engineering aspect, while working with and understanding living biological systems is the medical aspect. ” As a biomedical engineer, you’ll combine your knowledge of the life sciences with engineering practices. Some of the devices designed by biomedical engineers include MRI equipment, drug delivery equipment and surgical equipment.
Bioengineers also have a hand in the development of artificial organs and prosthetic limbs. Some days might find you training others on how to properly use equipment. A biomedical engineer may work in labs, hospitals, universities and manufacturing facilities. Biomedical engineers may be involved in research and development designing engineering products, or they may be in the hospital setting working with patients to determine the feasibility of a new biomedical device. There are many specialized jobs within the field of biomedical engineering.
This includes areas such as bioinstrumentation, biomaterials and biomechanics as well as medical imaging, rehabilitation engineering and orthopedic surgery. For instance, “a bioengineer specializing in biomechanics works on understanding the underlying mechanisms of human or animal movement. In turn, this information may be used to design a process to minimize the risk of repetitive injuries, such as carpal tunnel syndrome. ” This career is very specialized and has many possible career paths.