Pharmaceutical Engineering
Falls into both biomedical and chemical engineering categories. While some pharmaceuticals have upfront need of biological agents, even the development of chemical drugs requires BME knowledge.
Medical Devices
Cover all health care products not developed primarily through chemical means. They aid in disease diagnoses, cures, treatment, and prevention. Examples include prostheses, pacemakers, life-sustaining machines, artificial organs, and non-organic implants.
Medical Imaging
Equipment essential to diagnoses typically accounts for hospitals' most complex tools. Radiological techniques through ultrasound, magnetism, and UV, are among medical/biomedical imaging equipment achievements.
Bionics
Bionic limbs give functionality to amputees, and their development has also led to improved electronic transmission that affects much of the world.
Clinical Engineering
Practicing in clinical settings, these engineers train and supervise biomedical equipment technicians, work with governmental regulators, and consult with hospital staff. They are closely connected with medical device producers and end users.Regulatory Issues require routine consultation with specialized attorneys. Equipment safety and efficiency are the foremost objectives, and the Food and Drug Administration has jurisdiction over many biomedically-engineered products.
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