Bachelor of Science in Biomedical Engineering (BMES) - Biomaterials and Tissue Engineering Concentration Program By Drexel University |Top Universities

Bachelor of Science in Biomedical Engineering (BMES) - Biomaterials and Tissue Engineering Concentration

Bachelor of Science in Biomedical Engineering (BMES) - Biomaterials and Tissue Engineering Concentration

  • QS World University Rankings
    651-700
  • Degree Other
  • Study Level Bachelors
  • Duration 48 months
Biomedical Engineering is an innovative Bachelor of Science degree program developed and delivered in collaboration with the College of Engineering, the College of Arts and Sciences and the College of Computing and Informatics. It prepares students to conceive, design, and develop devices and systems that improve human health and quality of life. Biomedical engineering is the convergence of life sciences with engineering. From child car seats and football helmets to drug-delivery systems, minimally invasive surgery, and noninvasive imaging technology, the work of the biomedical engineer makes a difference in everyone’s life. The biomaterials and tissue engineering concentration focuses on the fundamental knowledge of natural and synthetic biomaterials and cellular biology and educates students in the emerging field of cellular and tissue engineering. The concentration in biomaterials and tissue engineering includes courses from the Departments of Biology, Chemistry, and Mechanical Engineering & Mechanics. The program builds on the fundamental knowledge of natural and synthetic biomaterials and cellular biology and educates students in the emerging field of cellular and tissue engineering. Biomaterials research has recently expanded to include fibrous materials and various prosthetic devices requiring the use of both synthetic and natural fibers. The emphasis is on improved materials and design of biological replacement tissues through cellular tissue engineering. Upon graduation, students will be able to: Select and evaluate biomaterials for use in biomedical applications in vivo; Develop in vitro models for drug delivery, drug toxicity and drug discovery choosing the appropriate biomaterials; Create high-fidelity tissue models in vitro; Develop and evaluate tissue engineering approaches to initiate and promote regenerative processes in vivo.