The study of diagnostic and therapeutic application of engineering in a broad array is called biomedical engineering. It is an interdisciplinary area of research that entitles different engineering techniques to assist in developing biomedical devices for surgeons, patients and physicians in their health care practices. The concepts of biomedical engineering also help in the rehabilitation of disabled patients and the application of the principles and problem-solving techniques to answer problem associated with biology and medicine. This is so evident that biomedical engineering has been utilized from diagnosis to treatment and recovery through the proliferation of implantable medical devices like a pacemaker, artificial hips, etc. and future technologies such as 3D printing of human organs and stem cell engineering. Engineering is an innovative field from automobile to aerospace and biomedical engineering is a field to improve human health and healthcare system, whether it could be an advanced prosthetic limb or identification of proteins.
There are several research areas in biomedical engineering includes the experimental design and development of a medical device, implants, medical imaging, tissue engineering, stem cell engineering, clinical engineering, etc. Biomedical engineering works in a with a range of opportunities from innovation, designing and development of new technology through research, testing, implementing, and developing novel diagnostic tool and medical equipment to establishing safety standards for medical devices. Further, tissue engineering and stem cell engineering working towards identifying artificial organs and helps organ transplantation by helping the people live a better life. The development of implantable medical devices such as pacemakers, coronary stents, prosthetics, etc. has been a great achievement, and clinical engineers ensure the safety and reliability of such devices for everyday use in clinical trials. Ultimately, the future technologies of biomedical engineering in discovering and advancing novel medical devices and achievements in the fields like material science and engineering through interdisciplinary research.
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