WD Stamer
WD Stamer
Verified email at
Cited by
Cited by
A comparative study of serum exosome isolation using differential ultracentrifugation and three commercial reagents
I Helwa, J Cai, MD Drewry, A Zimmerman, MB Dinkins, ML Khaled, ...
PloS one 12 (1), e0170628, 2017
Current understanding of conventional outflow dysfunction in glaucoma
WD Stamer, TS Acott
Current opinion in ophthalmology 23 (2), 135-143, 2012
The changing paradigm of outflow resistance generation: towards synergistic models of the JCT and inner wall endothelium
DR Overby, WD Stamer, M Johnson
Experimental eye research 88 (4), 656-670, 2009
Consensus recommendations for trabecular meshwork cell isolation, characterization and culture
KE Keller, SK Bhattacharya, T Borrás, TM Brunner, S Chansangpetch, ...
Experimental eye research 171, 164-173, 2018
The many faces of the trabecular meshwork cell
WD Stamer, AF Clark
Experimental eye research 158, 112-123, 2017
Forskolin stimulation of water and cation permeability in aquaporin1 water channels
AJ Yool, WD Stamer, JW Regan
Science 273 (5279), 1216-1218, 1996
L-DOPA Is an Endogenous Ligand for OA1
VM Lopez, CL Decatur, WD Stamer, RM Lynch, BS McKay
PLoS biology 6 (9), e236, 2008
Isolation and culture of human trabecular meshwork cells by extracellular matrix digestion
WD Stamer, REB Seftor, SK Williams, HAM Samaha, RW Snyder
Current eye research 14 (7), 611-617, 1995
eNOS, a pressure-dependent regulator of intraocular pressure
WD Stamer, Y Lei, A Boussommier-Calleja, DR Overby, CR Ethier
Investigative ophthalmology & visual science 52 (13), 9438-9444, 2011
Isolation, culture, and characterization of endothelial cells from Schlemm's canal.
WD Stamer, BC Roberts, DN Howell, DL Epstein
Investigative ophthalmology & visual science 39 (10), 1804-1812, 1998
Altered mechanobiology of Schlemm’s canal endothelial cells in glaucoma
DR Overby, EH Zhou, R Vargas-Pinto, RM Pedrigi, R Fuchshofer, ...
Proceedings of the national Academy of Sciences 111 (38), 13876-13881, 2014
Netarsudil increases outflow facility in human eyes through multiple mechanisms
R Ren, G Li, TD Le, C Kopczynski, WD Stamer, H Gong
Investigative ophthalmology & visual science 57 (14), 6197-6209, 2016
Biomechanics of Schlemm's canal endothelium and intraocular pressure reduction
WD Stamer, ST Braakman, EH Zhou, CR Ethier, JJ Fredberg, DR Overby, ...
Progress in retinal and eye research 44, 86-98, 2015
Aquaporin-1 channels in human retinal pigment epithelium: role in transepithelial water movement
WD Stamer, D Bok, J Hu, GJ Jaffe, BS McKay
Investigative ophthalmology & visual science 44 (6), 2803-2808, 2003
Roles of exosomes in the normal and diseased eye
M Klingeborn, WM Dismuke, CB Rickman, WD Stamer
Progress in retinal and eye research 59, 158-177, 2017
Steroid-induced ocular hypertension/glaucoma: Focus on pharmacogenomics and implications for precision medicine
ME Fini, SG Schwartz, X Gao, S Jeong, N Patel, T Itakura, MO Price, ...
Progress in retinal and eye research 56, 58-83, 2017
Major review: exfoliation syndrome; advances in disease genetics, molecular biology, and epidemiology
IF Aboobakar, WM Johnson, WD Stamer, MA Hauser, RR Allingham
Experimental eye research 154, 88-103, 2017
Human aqueous humor exosomes
WM Dismuke, P Challa, I Navarro, WD Stamer, Y Liu
Experimental eye research 132, 73-77, 2015
Aquaporins and ion conductance
P Agre, MD Lee, S Devidas, WB Guggino
Science 275 (5305), 1490-1492, 1997
Localization of aquaporin CHIP in the human eye: implications in the pathogenesis of glaucoma and other disorders of ocular fluid balance.
WD Stamer, RW Snyder, BL Smith, P Agre, JW Regan
Investigative ophthalmology & visual science 35 (11), 3867-3872, 1994
The system can't perform the operation now. Try again later.
Articles 1–20