People Related To Tissue Engineering Research

Robert Gourdie, Ph.D.

Professor, Virginia Tech Carilion Research Institute
Commonwealth Research Commercialization Fund Eminent Scholar in Heart Regenerative Medicine Research, Virginia Tech Carilion Research Institute
Director and Professor, VTCRI Center for Heart and Regenerative Medicine Research, Virginia Tech Carilion Research Institute
Professor, Department of Biomedical Engineering and Mechanics, College of Engineering, Virginia Tech
Professor of Emergency Medicine, Virginia Tech Carilion School of Medicine
Director of Emergency Medicine Research, Carilion Clinic

Events Related To Tissue Engineering

Understanding the Differentiation of Tissue Resident CD4+ T Cells

June 9, 2017, 11 a.m. at Virginia Tech Carilion Research Institute

Marion Pepper, PhD


Assistant Professor, Immunology University of Washington

VTCRI Pioneers in Biomedical Research Program

Linking Discoveries in Developmental Biology to 3-Dimensional Printing of New Tissues and Micro-Organs

Jan. 8, 2015, 5:30 p.m. at Virginia Tech Carilion Research Institute

Roger R. Markwald, PhD


Distinguished University Professor Chair, Department of Regenerative Medicine and Cell Biology, Director, Cardiovascular Developmental Biology Center, Medical University of South Carolina Charleston, South Carolina

VTCRI Maury Strauss Distinguished Public Lectures

Stories Related To Tissue Engineering

Catalyst grant spurs advanced research into the repair and regeneration of damaged tissue

April 30, 2014

The Virginia Tech Carilion Research Institute has been named a recipient of a generous grant from the Virginia Biosciences Health Research Corporation.

Publications Related To Tissue Engineering

Farris S, Wang Y, Ward JM, Dudek SM. (2017). Optimized method for robust transcriptome profiling of minute tissues using laser capture microdissection and low-input RNA-Seq. Frontiers Molecular Neuroscience 10.

Abdullah OM, Gomez AD, Merchant S, Heidinger M, Poelzing S, Hsu EW. (2015). Orientation dependence of microcirculation-induced diffusion signal in anisotropic tissues. Magnetic Resonance in Medicine.

Ongstad EL, Yost MJ, Fann SA, Ghatnekar GS, Gourdie RG. (2013). Regenerative pharmacology of implanted materials and tissue engineered constructs. In: Christ G (Ed.), Regenerative Pharmacology. Cambridge University Press.

Degen KE, Gourdie RG. (2012). Embryonic wound healing: A primer for engineering novel therapies for tissue repair. Birth Defects Res C Embryo Today 96(3): 258-70.

Bitra K, Zhang S, Strand MR. (2011). Transcriptomic profiling of Microplitis demolitor bracovirus reveals host, tissue and stage-specific patterns of activity. Journal of General Virology 96: 2060-71.

Lockett NN, Scott VL, Boudreaux CE, Clay BT, Pruett SB, Ryan PL, Coats, KS. (2010). Expression of regulatory T cell (Treg) activation markers in endometrial tissues from early and late pregnancy in the feline immunodeficiency virus (FIV)-infected cat. Placenta 31(9): 796-802.

King RD, Wiest M, Eagleman DM, Montague PR. (2000). Do extracellular calcium signals carry information through neural tissue? Trends in Neuroscience 23(1): 12-13.

Egelman DM, Montague PR. (1999). Calcium dynamics in the extracellular space of mammalian neural tissue. Biophysical Journal 76(4): 1856-1857.

Haugstad TS, Langmoen IA. (1997). L-alpha-aminoadipate reduces glutamate release from brain tissue exposed to combined oxygen and glucose deprivation. Journal of Cerebral Blood Flow and Metabolism 17: 567-70.

Montague PR. (1996). The resource consumption principle: Attention and memory in volumes of neural tissue. Proceedings of the National Academy of Science 93(8): 3619-3623.

Montague, PR, Dayan, P, Sejnowski, TJ. (1993). Volume learning: Signaling covariance through neural tissue. Computation and Neural Systems: 377-382.