Robert S. Cargill, Ph.D.
Affiliations: | Cargill Bioengineering | Cargill Bioengineering |
Area:
Biomechanics, Traumatic Brain InjuryWebsite:
http://www.cargillbioengineering.org/page13.htmlGoogle:
"Robert Cargill"Mean distance: 23.18 (cluster 52)
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Publications
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| LaPlaca MC, Cullen DK, McLoughlin JJ, et al. (2005) High rate shear strain of three-dimensional neural cell cultures: a new in vitro traumatic brain injury model. Journal of Biomechanics. 38: 1093-105 |
| Geddes DM, LaPlaca MC, Cargill RS. (2003) Susceptibility of hippocampal neurons to mechanically induced injury. Experimental Neurology. 184: 420-7 |
| Geddes DM, Cargill RS, LaPlaca MC. (2003) Mechanical stretch to neurons results in a strain rate and magnitude-dependent increase in plasma membrane permeability. Journal of Neurotrauma. 20: 1039-49 |
| Geddes DM, Cargill RS. (2001) An in vitro model of neural trauma: device characterization and calcium response to mechanical stretch. Journal of Biomechanical Engineering. 123: 247-55 |
| Murnyack RM, Cargill RS, LaPlaca MC. (2001) Development of a three-dimensional finite element model of lateral cortical impact injury in rats with geometry generated from MR images American Society of Mechanical Engineers, Bioengineering Division (Publication) Bed. 50: 891-892 |
| McLoughlin J, Derer A, Cullen D, et al. (2000) Viability Of 3-D Primary Glial Cell Cultures Injured By A High Strain Rate Shear Device Journal of Neurotrauma. 17: 941-996 |
| McLoughlin JJ, Cargill RS, LaPlaca MC. (1999) Novel in vitro shear device for high strain rate injury of three-dimensional co-cultures of neurons and astrocytes Annual International Conference of the Ieee Engineering in Medicine and Biology - Proceedings. 1: 35 |
| Cargill RS, Thibault LE. (1996) Acute alterations in [Ca2+]i in NG108-15 cells subjected to high strain rate deformation and chemical hypoxia: an in vitro model for neural trauma. Journal of Neurotrauma. 13: 395-407 |
| Landsman AS, Meaney DF, Cargill RS, et al. (1995) 1995 William J. Stickel Gold Award. High strain rate tissue deformation. A theory on the mechanical etiology of diabetic foot ulcerations. Journal of the American Podiatric Medical Association. 85: 519-27 |
| Landsman AS, Thibault LE, Meaney DF, et al. (1992) New system to study mechanical deformation and the resultant calcium transients in endothelial cells American Society of Mechanical Engineers, Bioengineering Division (Publication) Bed. 22: 9-12 |