William L Olbricht
Professor Olbricht joined the Cornell faculty in 1980. He is professor of chemical and biomolecular engineering and biomedical engineering.
Our research involves the application of fluid mechanics and mass transfer to problems of biological, biomedical and industrial interest. We focus on fundamentals that are relevant to broad classes of problems and also on technology development for specific applications.
A recent example is convection-enhanced drug delivery, which is a novel method of delivering therapeutics to the brain for a variety of disorders, including some primary brain tumors. Convection-enhanced delivery bypasses the blood-brain barrier by infusing drugs through a needle directly into the interstitium. We are studying the transport of infused material in brain tissue and designing microfluidic catheters to improve the distribution of the infused therapeutics.
We are also interested in the motion of blood cells in the microcirculation, which affects oxygen and nutrient transport to tissue. One current application of interest involves a class of diseases that result in the over-production of red cells. This can result in significant changes in blood flow throughout vascular networks.
Much of our work on these problems involves microfabrication that is carried out at the Cornell NanoScale Science and Technology Center.
1. Chemical engineering unit operations laboratory (CHEME 4320) serving as instructor for a heat transfer experiment; 2. "Biomedical Engineering," (CHEME/BME 4810) an elective class for chemical, biomedical and biological engineering students at senior and MEng levels with an enrollment of 75.
Master of Engineering Representative for Chemical Engineering.
Cornell's faculty representative to the Federal Demonstration Partnership.
Department's representative to the Council for Chemical Research.
- 2011. "Fluid and Solid Mechanics in a Poroelastic Network Induced by Ultrasound." Journal of Biomechanics 44 (1): 28-33. .
- 2011. "Fluid Mechanics in the Perivascular Space." Journal of Theoretical Biology 274: 52-57. .
- 2010. "A portable high-intensity focused ultrasound device for noninvasive venous ablation." Journal of Vascular Surgery 158: 707-711. .
- 2010. "Microfabricated Probes in the Treatment of Brain Related Diseases." Drug News Perspectives 23: 491-497. .
- 2009. "Novel Microcatheters for Selective Intra-Arterial Injection of Fluid in the Rat Brain." American Journal of Neuroradiology 30 (6): 1190-1196. .
Selected Awards and Honors
- Excellence in Teaching Award (Cornell College of Engineering) 2005
- Excellence in Teaching Award (Cornell College of Engineering) 2002
- Excellence in Teaching Award (Cornell College of Engineering) 1999
- Faculty Development Award (IBM) 1985
- F.E. Terman Award (Stanford University) 1973
- BS (Chemical Engineering), Stanford University, 1973
- Ph D (Chemical Engineering), California Institute of Technology, 1981