The field of biological engineering, also known as bioengineering, combines biological theory with engineering methodology to develop products with practical and economic value. Mass and heat transfer, kinetics, biocatalysts, biomechanics, bioinformatics, separation and purification processes, bioreactor design, surface science, fluid mechanics, thermodynamics, and polymer science are some of the pure and applied sciences used in biological engineering. It's used in fields that boost people's quality of life, such as medicine, diagnostics, sustainable energy, ecology, agriculture, industrial processes, and catalysis. Prosthetics, biopharmaceuticals, tissue-engineered organs, and bacteria genetically modified to produce chemicals are all innovations made possible by bioengineering research. Biological engineers typically work to create products analogous to biological systems or to alter and exert control over such systems. Bioengineers collaborate with medical professionals and scientists to find novel ways to replace, augment, sustain, or predict chemical and mechanical processes central to living organisms.

• Ohio Medical Career College
• American Medical Institute Inc.
• Milwaukee School of Engineering
• Northeast Ohio Medical University
• Albany College of Pharmacy and Health Sciences
• Albany Medical College
• Air Force Institute of Technology-Graduate School of Engineering & Management
• Franklin W Olin College of Engineering
• American University of Puerto Rico
• Alhambra Medical University

• Alhambra Medical University Curriculam
• Franklin W Olin College of Engineering Curriculam
• Air Force Institute of Technology-Graduate School of Engineering & Management Curriculam
• Albany Medical College Curriculam
• Albany College of Pharmacy and Health Sciences Curriculam
• Northeast Ohio Medical University Curriculam
• Milwaukee School of Engineering Curriculam
• American Medical Institute Inc. Curriculam
• Ohio Medical Career College Curriculam