The academic content and curriculum of the Biomedical Engineering program are generally designed to strike a balance between basic sciences, engineering principles and biomedical applications. This program offers students the opportunity to integrate both engineering skills and biological and medical knowledge. Here are the main components in a typical curriculum of this program:
Basic Sciences and Mathematics: Biomedical engineering students solidify their scientific foundation by taking courses in physics, chemistry, biology and mathematics. These courses provide the foundational knowledge needed to understand more advanced engineering concepts.
Engineering Fundamentals: Basic engineering courses, such as electrical, mechanical and computer engineering, provide students with engineering design and analysis skills. These courses also help students develop problem-solving and engineering approaches.
Biology and Physiology: Biomedical engineers need to understand how the human body works. For this reason, biology and physiology courses teach the structure and functioning of body systems. This knowledge is the basis for designing medical devices and systems.
Biomedical Engineering Core Courses: These courses focus on areas such as biomedical device design, biomaterials, biomechanics, medical imaging techniques, biosignal processing and biomedical instrumentation. Students learn the basic concepts and applications of biomedical engineering in these courses.
Laboratory and Practical Studies: Students work in various laboratory courses and projects to develop their experimental and practical skills. This offers the chance to apply the theoretical knowledge they have learned to real-world problems.
Design and Project Management: Biomedical engineering programs train students in engineering design processes and project management skills. This enables students to be effective in the design and development of complex biomedical systems and devices.
Ethics and Professional Development: This program teaches students about the ethical aspects of biomedical engineering and professional responsibilities. It also focuses on communication skills and professional development.
The curriculum also offers elective courses and areas of specialization, allowing students to receive a personalized education based on their interests. Students can choose from a variety of elective courses to gain in-depth knowledge in areas of particular interest.