BIEN 264: Biotransport Phenomena
Covers the mathematical expression and modeling of principles underlying the transport processes of biological systems and biomedical engineering processes. Emphasizes momentum, mass transport, and interpretation of these processes. Topics include advanced development of governing conservation equations and the appropriate constitutive equations for transport in circulation and tissue.
About the Instructor
Although a chemical engineer by training, Professor and Chair of Bioengineering Victor G.J. Rodgers has concentrated on applications of chemical engineering fundamentals to the development and better understanding of biomedical and biological systems. His specific focus uses the fundamentals of transport phenomena, mathematical modeling, thermodynamics and kinetics. His work is largely interdisciplinary and collaborative with colleagues at medical school and pharmaceutical and bioscience programs, particularly at the University of Iowa. Some of his current projects include investigating the mechanism and potential role of redox species in and at the mitochondria of cells, mathematical mass transfer analysis of dissolved gases and nutrients in bioreactors, mathematical and experimental analysis of genetically-modified beta cells for a bioartificial pancreas, development and modeling prediction of drug delivery vehicles and development of transplantable devices.