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Biomedical engineering commonly referred to as BioMed is a discipline that combines engineering and biology, and applies the engineering principles in healthcare and medicine.
Biomedical engineering is a multidisciplinary field composed of various subdivisions. The nature of work done varies depending on the area of specialization. Some subdivisions of biomedical engineering writing services include:
- Medical imaging
- Computational Biology
- Orthopaedic Bioengineering
- Cellular, Tissue, and Genetic Engineering
- Biomedical Electronics
Biomedical engineers work in a wide range of disciplines and settings. Some roles of biomedical engineers include performing extensive medical research, innovating and developing new technologies, establishing safety standards for medical equipment, developing, testing, and implementing new diagnostic tools and medical devices
The combination of biological knowledge with engineering principles has promoted the development of life-saving and revolutionary concepts like:
- Artificial recreation of human organs by tissue and stem cell engineers
- Designing and developing new implantable and external devices such as legs, joints, arms, blood oxygenators, cardiac pacemakers, artificial kidneys, orthopaedic implants, ambulatory devices, coronary stents, and dental products
- Designing devices and equipment for therapeutic uses
- Development of advanced biomaterials
- Designing information and computer systems for monitoring patients and enhancing clinical decision making based on artificial intelligence and expert systems.
- Developing and performing research on medical research in the area of imaging systems like ultrasound, magnetic resonance imaging (MRI), positron emission tomography (PET), and computer-assisted tomography (CT)
- Developing computer/mathematical models required when studying physiology
- Manufacturing of pharmaceutical drugs
If you are passionate about learning how medical equipment works and how they are developed, then biomedical engineering is the course you should pursue. Below are 4 reasons why you should pursue biomedical engineering:
- Fantastic work placement opportunities
Biomedical engineering is a multidisciplinary field with a wide range of specialization courses. Regardless of your area of specialization, biomedical engineers will always be in demand. After completing your degree, you can work in companies such as Siemens, GE Healthcare, and the NHS.
- Flexibility with the common first year
When you enroll for a biomedical engineering degree, you can explore various disciplines such as medical imaging, biomedical electronics, or computational biology in the first year to know which area you would like to specialize in.
- Professionally recognized courses
Biomedical engineering is a course that is recognized worldwide that meets all the academic requirements for one to become a Chartered Engineer.
- Industry-standard facilities
Biomedical engineering provides you with an opportunity to use cutting-edge technologies such as computer-numerical-control (CNC) machine tooling equipment and the latest design software.
By the end of the course, biomedical engineers should have in-depth knowledge in physiology, cardiology, electrical engineering, fluid dynamics, and mechanical engineering especially engineers designing body organs such as the artificial heart. When designing a lab-on-a-chip, extensive knowledge in biochemistry, nanotechnology, and electronics and material science is required. For engineers designing prosthetic replacement limbs, in-depth knowledge in physiology, material properties, biomechanics, and mechanical engineering is required.