Computer science, physics, Engineering, and mathematics transform medicine from ground-breaking design of artificial organs to keyhole surgery and research of stem cell development. The biomedical degree is the new engineering discipline that combines the study of medicine, mathematics, and biology in order to discover techniques in which engineering is used to solve problems of medical. If you’re interested in discovering the combination of medicine and engineering in order to create and design innovative healthcare equipment for the improvement of lives of people.
Course structure & entry requirements
Biomedical engineering or bioengineering degrees are interdisciplinary branches of engineering drawing in a number of fields such as materials, electrical, mechanical engineering and chemical. These engineering degrees are combined with the interest of medical and life science subjects such as healthcare solutions and molecular biology. Most of the biomedical engineering undergraduate courses start with the concentration of healthcare and interdisciplinary approach. In this specialization, you’ll become familiar with the physiology and human anatomy terminology as well as thermodynamics, cell biology, and biomechanics with the computation of for medical engineers. Further study in this specialization includes other modules of biomedical and engineering subjects such as biomaterials, engineering design, engineering mathematics, electronic engineering, neuroscience, mechanics, neuroscience, human anatomy, and physiology. You will also get the opportunity of tailoring your degree by choosing from a set of optional modules or following a particular biomedical engineering track. Assessments and teaching modules include in this specialization are computer simulation sessions, laboratory work, and hospital visits. Some universities or institutions prefer students prefer candidates with strong background in mathematics, chemistry, biology, and physics.
Specialization in Biomedical Engineering
There are many specializations in biomedical degrees depending on your interest. Degree in biomedical majorly divided into many specializations available in each field.
Biomechanics: This specialization is the study of mechanical methods of the mobility or structure of the living organisms. In this specialization, you’ll examine the various properties of various tissues such as muscles, brain tissue, blood vessels, skin and more.
Biomedical devices and systems: If you want to create innovative bioengineering systems and state-of-the-art medical devices, this specialization helps you to analyze the tools needed to develop robust designs.
Rehabilitation Engineering: The study of this specialization includes the ways in which technical solutions to develop, evaluate, adapt, test, applied and distributed in order to improve quality of life and disabilities of people.
Careers in Biomedical Degrees are varied and wide, as with most arts and humanities subjects. Following are the career options available in Biomedical Degrees:-
- Biomedical engineer
- Chemical engineer
- Rehabilitation engineer
- Mechanical engineer