With today’s constant technological advances, the gap between engineering and medicine continues to shrink. As a result, biomedical engineersare helping to improve healthcare diagnosis and treatment. Although we don’t often think about such things when our leg is broken or our stomach is hurting and we go to the ER to find out why, it is these types of advances that help us the most and are actually all around us. Results of biomedical engineering include: biocompatible prostheses, various diagnostic and therapeutic medical devices — ranging from clinical equipment to common imaging equipment such as MRIs and EEGs — as well as biotechnologies such as regenerative tissue growth. In order to enter this exciting and evolving field, you must obtain training from a reputable post-secondary institution such as Centennial College in Toronto, ON.
The college’s Biomedical Engineering Technology program takes three years to complete and prepares students for a challenging career using the latest technology, with a balance between theory and hands-on lab time. In addition, students are guided towards future Certified Engineering Technologist (CET) and Certified Biomedical Engineering Technologist (CBET) certifications. This occurs through courses such as: Electronics Shop Practices, Electric Circuits, Technology Mathematics, Biomedical Engineering, Dialysis and Water Treatment, and many others.
To supplement classroom studies, students participate in a co-op experience that puts them in settings such as hospitals, medical equipment companies, pharmaceutical companies, rehabilitation facilities and quality control. It is during this placement that students work alongside seasoned biomedical engineers applying what they have learned and absorbing new knowledge. In order participate in co-op, a minimum C grade in COMM-170/171, minimum 2.5 GPA, and minimum 80 per cent of first year courses required for COOP-221.
To apply for the Biomedical Engineering Technology co-op program, students should possess an Ontario Secondary School Diploma (OSSD) or equivalent or be 19 years of age or older. Also required are compulsory English 12C or U or skills assessment, or equivalent and math 11M or U, or 12C or U or skills assessment, or equivalent. However, possession of minimum admission requirements does not guarantee admission to the program.
The biomedical engineering field can be viewed through the subsections: biomaterials, biomechanics, bionics, clinical engineering, medical engineering, rehabilitation engineering and much more. However, all Biomedical Engineers perform some common tasks, including conducting research, along with chemists and medical scientists, on the engineering aspects of the biological systems of humans and animals. Another important task for biomedical engineering professionals is the design and development of medical diagnostic and clinical instrumentation, equipment and procedures. Evaluating the safety of biomedical equipment, repairing as necessary and advising hospital administrators on the use of the equipment also fall into this professional’s hands.
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