Randolph D. Glickman
University of Texas Health Science Center at San Antonio
160 Papers
1K Citations
Randolph D. Glickman is an academic researcher from University of Texas Health Science Center at San Antonio. The author has contributed to research in topics: Laser & Lithotripsy. The author has an hindex of 30, co-authored 159 publications. Previous affiliations of Randolph D. Glickman include Harvard University & University of Texas at San Antonio.
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Papers
Holmium: YAG lithotripsy: photothermal mechanism.
George J. Vassar,Kin F. Chan,Joel M.H. Teichman,Randolph D. Glickman,Susan T. Weintraub,T. Joshua Pfefer,Ashley J. Welch +6 more
TL;DR: The primary mechanism of Ho:YAG lithotripsy is photothermal and there are no significant photoacoustic effects.
251
Phototoxicity to the Retina: Mechanisms of Damage
TL;DR: Light damage to the retina occurs through three general mechanisms involving thermal, mechanical, or photochemical effects; very recent evidence suggests that ultrashort laser pulses can produce tissue damage through nonlinear and photochemical mechanisms.
211
Internal absorption coefficient and threshold for pulsed laser disruption of melanosomes isolated from retinal pigment epithelium
Steven L. Jacques,Randolph D. Glickman,Jon A. Schwartz +2 more
- 07 May 1996
TL;DR: In this paper, the authors determine the threshold radiant exposure from a 10ns pulsed laser (532 nm) which caused bovine melanosomes to present various observable endpoints of disruption.
118
Review of laser fibers: A practical guide for urologists
TL;DR: The physics and engineering aspects of optical fibers are reviewed to explain why fibers fail and how they are selected for use in lithotripsy.
106
Inner plexiform circuits in the carp retina: effects of cholinergic agonists, GABA, and substance P on the ganglion cells.
TL;DR: It is proposed that ACh, GABA, and substance P are neurotransmitters that are released by amacrine cells and affect receptors located on ganglion cells.
104