Bioengineers who graduate from Lehigh University go on to work in established and emerging fields such as healthcare, biomedicine, pharmaceuticals, biomaterials and other biotechnology-related industries. They use engineering applications to address and solve challenges in the fields of biology and medicine and create usable, tangible products. Many develop and evaluate systems and devices that solve medical and health-related problems, such as artificial organs, prostheses, instrumentation, medical information systems and health management and care delivery systems.
Bioengineering allows students to combine engineering principles and the life sciences to explore opportunities and address challenges in the fields of healthcare, medicine and biotechnology.
Why Bioengineering?
-
Because you enjoy facets of both engineering and biology
-
Because you want to solve problems in the areas of health care, medicine, and biotechnology
-
Because you want to design medical devices like prostheses, artificial organs and pacemakers and help bring them to market
What sets us apart
Lehigh’s highly interdisciplinary B.S. program in bioengineering trains students at the interface of engineering, the life and physical sciences and healthcare. Bioengineering graduates take positions in healthcare, biomedicine, pharmaceuticals, biomaterials and other biotechnology industries. They solve challenges in biology and medicine while creating tangible products, including artificial organs, prostheses, instrumentation, medical information systems and healthcare management systems.
The bioengineering program complements formal instruction with opportunities for experiential learning via seminar courses, extended research with faculty members, and team-based and industry-sponsored design projects within Lehigh's Integrated Product Development program. Students also participate in summer internships, Research Experience for Undergraduates (REU) programs and Lehigh's co-op program.
Lehigh's program also allows students to choose from three tracks for further specialization:
-
Biopharmaceutical Engineering encompasses biochemistry and chemical engineering. Topics include genomics, recombinant DNA, protein engineering, bioprocessing, drug synthesis and delivery.
-
Bioelectronics/Biophotonics appeals to students interested in the applications of electrical engineering and physics in bioengineering. Topics include signal processing, bioinstrumentation, biosensors, MEMs, biochips for DNA sequencing, and laser-and filter-based optical technology.
-
Biomechanics and Biomaterials straddles molecular and cell biology, materials science, mechanical engineering and electrical engineering. It encompasses biomaterials and biomechanics, from cells and tissue to organs and systems.