David William Grainger is a distinguished professor and chair of the department of biomedical engineering and distinguished professor of pharmaceutics and pharmaceutical chemistry at the

University of Utah The University of Utah (U of U, UofU, or simply The U) is a public research university in Salt Lake City, Utah. It is the flagship institution of the Utah System of Higher Education. The university was established in 1850 as the University of ...

. His research focuses on biomaterials, drug delivery, and medical device innovation.

Personal life

David William Grainger III was born in Boston, Massachusetts, and grew up in

Spokane, Washington Spokane ( ) is the largest city and county seat of Spokane County, Washington, United States. It is in eastern Washington, along the Spokane River, adjacent to the Selkirk Mountains, and west of the Rocky Mountain foothills, south of the Canadi ...

. He graduated from Lewis and Clark High School in 1979 as valedictorian.

Education

Grainger graduated with a B.A. degree in engineering and minor in chemistry in 1983. In 1987, Grainger completed his Ph.D. degree at the

in pharmaceutical chemistry in 1987 under National Academy member, Prof. Sung Wan Kim. His dissertation work involved synthesis of heparinized block copolymers and analysis of their blood coagulation properties in vitro and in vivo. He was awarded a postdoctoral fellowship from the

Alexander von Humboldt Foundation The Alexander von Humboldt Foundation (german: Alexander von Humboldt-Stiftung) is a foundation established by the government of the Federal Republic of Germany and funded by the Federal Foreign Office, the Federal Ministry of Education and Resea ...

to work with Prof. Helmut Ringsdorf at the

University of Mainz The Johannes Gutenberg University Mainz (german: Johannes Gutenberg-Universität Mainz) is a public research university in Mainz, Rhineland Palatinate, Germany, named after the printer Johannes Gutenberg since 1946. With approximately 32,000 stu ...

, Germany. This work produced new strategies for organizing two-dimensional protein structures on planar lipid films.

Career and research

Grainger's early research focused on the failure of medical implants in the human body and the problems associated with blood coagulation and infection. Grainger began his academic career as an assistant professor at the

Oregon Graduate Institute The Oregon Graduate Center was a unique, private, postgraduate-only research university in Washington County, Oregon, on the west side of Portland, from 1963 to 2001. The center was renamed the Oregon Graduate Institute in 1989. The Institute me ...

. He moved to become associate professor in the department of chemistry at

Colorado State University Colorado State University (Colorado State or CSU) is a public land-grant research university in Fort Collins, Colorado. It is the flagship university of the Colorado State University System. Colorado State University is classified among "R1: ...

and was promoted to full professor there in 1999. In 2006, Grainger was awarded the Inaugural George S. and Dolores Doré Eccles Presidential Endowed Chair and professor in the department of pharmaceutics and pharmaceutical chemistry, health sciences, at the University of Utah. He chaired this department from 2006 to 2016, then became department chair of the department of biomedical engineering at the

, where he currently resides as a university distinguished professor. Grainger's research focuses mainly on biomaterials and drug delivery systems in biomedical engineering applications.

Drug delivery

Much of Grainger's current research is focused on two drug delivery device issues: Drug device integration, and nanotoxicology; however, his research portfolio is quite diverse. His work in nanotoxicology (the study of the toxicity of nanomaterials) ranges from testing drug toxicity in vitro, to investigation of infections caused by materials implanted in the body. The issue of nanotoxicity in transportation of drug particles is also an area of his expertise. Much of his work in this area focuses on finding the surface interactions at the drug-tissue, drug-material interface. His research in drug device integration began with his work in pharmacology and nanomedicine. This moved into work in localized drug delivery devices to treat conditions like prophylaxis and insights into infection caused by implanted materials. Additional research includes: Extensive work to characterize the functions and applications of growth factor-β, specifically its implications in conditions including ''Arteriosclerosis'' and ''Thrombosis'', diagnosis of coronary heart disease and proliferation of human muscular tissue.

Biomaterials

Some of Grainger's work with biomaterials is focused on surface modification,Harbers, Gregory M., et al. "Functionalized Poly(Ethylene Glycol)-Based Bioassay Surface Chemistry That Facilitates Bio-Immobilization and Inhibits Nonspecific Protein, Bacterial, and Mammalian Cell Adhesion." Chemistry of Materials, vol. 19, no. 18, pp. 4405–4414 (2007). patterning and analytical methods, and ultrathin protein and polymer films. In a study of functionalized poly(ethylene glycol)-based bioassays, he helped discover a new surface chemistry which inhibits nonspecific biomolecular interactions and provides the capacity for specific immobilization of desired biomolecules. In another study involving surface chemistry, Grainger investigated organic thiol and bi-sulfide binding interactions with gold surfaces. It was common practice for self-assembled monolayer (SAM) systems to use sulfur anchor groups and gold surfaces, while the gold-sulfur bonding mechanisms had not yet been explored. The findings from this experiment showed the importance of selecting a proper solvent for SAM systems on gold surfacesCastner, David G. G, et al. "X-Ray Photoelectron Spectroscopy Sulfur 2p Study of Organic Thiol and Bisulfide Binding Interactions with Gold Surfaces." Langmuir, vol. 12, no. 21, pp. 5083–5086 (1996).

References

External links

bioen.utah.edu
{{DEFAULTSORT:Grainger, David William University of Utah faculty 1961 births Living people Scientists from Boston University of Utah alumni Pharmaceutical scientists Dartmouth College alumni American biochemists American biomedical engineers