Bachelor Science in Biomedical Engineering - Cell and Tissue Engineering Program By Illinois Institute of Technology |Top Universities

Bachelor Science in Biomedical Engineering - Cell and Tissue Engineering

Bachelor Science in Biomedical Engineering - Cell and Tissue Engineering

  • Degree Other
  • Study Level Bachelors
  • Duration 48 months
MISSION The mission of the biomedical engineering undergraduate program at IIT is to educate students in the fundamentals of biomedical engineering. This foundation consists of a broad exposure to the chemical, mathematical, physical and biological sciences, coupled with the appropriate technical and engineering skills to be able to fill diverse professional roles in industry, graduate school and the medical professions. BIOMEDICAL ENGINEERING AT IIT Biomedical engineering is an interdisciplinary major in which the principles and tools of traditional engineering fields, such as mechanical, materials, electrical and chemical engineering are integrated with the chemical, physical and biological sciences, are applied towards a better understanding of physiological processes in humans or towards the solution of medical problems. Engineering will continue to play an increasingly important role in advancing medical treatment, developing biotechnology and improving health-care delivery. By its very nature, biomedical engineering is expansive and requires a broad and integrated foundation in the physical, chemical, mathematical and biological sciences. Bachelor of Science in Biomedical Engineering (Cell and Tissue Engineering) This area seeks to understand and attack biomedical problems at the microscopic level and use such knowledge to engineer replacement tissues and organs from individual cells. Knowledge of anatomy, biochemistry and the mechanics of cellular and sub-cellular structures is needed to understand disease processes and to target interventions. Armed with such knowledge, new technologies have been, or are being, developed. Examples include: (1) Miniature devices for delivering compounds that stimulate or inhibit cellular processes in precise locations to promote healing or inhibit disease formation and progression; (2) New techniques that have produced replacement skin and may one day produce heart valves, coronary vessels, and even entire hearts; (3) Development of artificial materials used for implantation as well as new biomaterials that incorporate proteins or living cells, thereby providing a truer biological and mechanical match for the living tissue. This program is accredited by the Engineering Accreditation Commission of ABET Inc., Procedure for Requesting to Register for a Course When Course Pre-requisites Have Not Yet Been Fulfilled In consultation with his/her advisor, a student seeking to register for a Biomedical Engineering Department course in which not all prerequisites have been successfully completed must submit a written petition explaining the rationale for waiving a course prerequisite requirement. Petitions are to be sent to the Undergraduate Curriculum Committee Chair, Dr. Kang-Mieler (). ng-Mieler ().