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Bio Medical Engineering

WHAT IS BIOMEDICAL ENGINEERING?

Biomedical engineering is the application of engineering principles and techniques to the medical field. This field seeks to close the gap between engineering and medicine. It combines the design and problem solving skills of engineering with medical and biological sciences to improve healthcare diagnosis and treatment.

There are many different disciplines in engineering field such as aerospace, chemical, civil, computer, electrical, genetic, geological, industrial, and mechanical. On the other hand, in the medical field, there are several fields of study such as anesthesiology, cardiology, dermatology, emergency medicine, gastroenterology, orthopedics, neuroscience, pathology, pediatrics, psychiatry, radiology, and surgery. Biomedical engineering can be considered as a bridge connecting field(s) in engineering to field(s) in medicine.

Creating such a bridge requires understanding and major cross - disciplinary efforts by engineers, researchers, and physicians at health institutions, research institutes, and industry sectors. Depending on where this connection has happened, different areas of research in biomedical engineering have been shaped.

In all different areas in biomedical engineering, the ultimate objectives in research and education are to improve the quality life, reduce the impact of disease on the everyday life of individuals, and provide an appropriate infrastructure to promote and enhance the interaction of biomedical engineering researchers.

In general, biomedical engineering has several disciplines including, but not limited to, bioinstrumentation, biostatistics, and biomaterial, biomechanics, biosignal, biosystem, biotransportation, clinical, tissue, rehabilitation and cellular engineering.

 

CAREER OPPORTUNITIES:

Experts in biomedical engineering, a young area for research and education, are working in various industry and government sectors, hospitals, research institutions, and academia. The U.S. Department of Labor estimates that the job market for biomedical engineering will increase by 72%, faster than the average of all occupations in engineering. Therefore, there is a need to extend the research in this area and train biomedical engineers of tomorrow.

 

ELIGIBILITY CRITERIA:

PROGRAM

DURATION

ELIGIBILITY

SELECTION CRITERIA

B.Tech Biomedical Engineering

4 Years

10+2 with PCB

AIPMT / MEET-2016

 

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