L
Larry V. McIntire
Researcher at Rice University
Publications - 190
Citations - 16483
Larry V. McIntire is an academic researcher from Rice University. The author has contributed to research in topics: Endothelial stem cell & Cell adhesion molecule. The author has an hindex of 62, co-authored 190 publications receiving 16088 citations. Previous affiliations of Larry V. McIntire include University of Washington & Baylor College of Medicine.
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Journal Article
Mechanical trauma in leukocytes
TL;DR: Exposure to shear stress may alter or disrupt leukocyte morphology and function at values somewhat lower than the 1,500 dynes/cm2 for 2 min which is required to hemolyze erythrocytes.
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Molecular Mechanisms of Monocyte Adhesion to Interleukin-1β–Stimulated Endothelial Cells Under Physiologic Flow Conditions
TL;DR: It is demonstrated that monocytes can use multiple receptors to interact with endothelial cells at both primary and secondary adhesion stages, and that these pathways have to be blocked simultaneously for maximum inhibition.
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Analysis of endothelial cell locomotion : differential effects of motility and contact inhibition
TL;DR: Results show that bFGF concentrations that increase the motility of BPAE cells also increase the observed cell proliferation rates, similar to previous studies of basic fibroblast growth factor concentrations.
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Fluid Flow Releases Fibroblast Growth Factor-2 From Human Aortic Smooth Muscle Cells
TL;DR: Flow cytometry detected a 50% increase in mean fluorescence of cells exposed to 25 dyne/cm(2) versus control cells, indicating that the observed FGF-2 release from human aortic smooth muscle cells is likely due to transient membrane disruption on initiation of flow.
Journal Article
Microarray analysis of shear stressed endothelial cells.
Susan M. McCormick,Stacie R. Frye,Suzanne G. Eskin,Christina L. Teng,Chiung-Mei Lu,Christopher G. Russell,Krishnan K. Chittur,Larry V. McIntire +7 more
TL;DR: These microarray studies verified earlier findings using Northern and polymerase chain reaction (PCR) analyses in this area; and also found previously unidentified differentially expressed genes, leading to new hypotheses regarding how cells and tissues respond to biochemical and mechanical stimuli.