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Invest. Ophthalmol. Vis. Sci. · Dec 2014
Early detection of subclinical visual damage after blast-mediated TBI enables prevention of chronic visual deficit by treatment with P7C3-S243.
- Laura M Dutca, Steven F Stasheff, Adam Hedberg-Buenz, Danielle S Rudd, Nikhil Batra, Frederick R Blodi, Matthew S Yorek, Terry Yin, Malini Shankar, Judith A Herlein, Jacinth Naidoo, Lorraine Morlock, Noelle Williams, Randy H Kardon, Michael G Anderson, Andrew A Pieper, and Matthew M Harper.
- The Iowa City Department of Veterans Affairs Center for the Prevention and Treatment of Visual Loss, Iowa City, Iowa, United States Departments of Ophthalmology and Visual Sciences, The University of Iowa, Iowa City, Iowa, United States.
- Invest. Ophthalmol. Vis. Sci. 2014 Dec 1; 55 (12): 8330-41.
PurposeTraumatic brain injury (TBI) frequently leads to chronic visual dysfunction. The purpose of this study was to investigate the effect of TBI on retinal ganglion cells (RGCs), and to test whether treatment with the novel neuroprotective compound P7C3-S243 could prevent in vivo functional deficits in the visual system.MethodsBlast-mediated TBI was modeled using an enclosed over-pressure blast chamber. The RGC physiology was evaluated using a multielectrode array and pattern electroretinogram (PERG). Histological analysis of RGC dendritic field and cell number were evaluated at the end of the study. Visual outcome measures also were evaluated based on treatment of mice with P7C3-S243 or vehicle control.ResultsWe show that deficits in neutral position PERG after blast-mediated TBI occur in a temporally bimodal fashion, with temporary recovery 4 weeks after injury followed by chronically persistent dysfunction 12 weeks later. This later time point is associated with development of dendritic abnormalities and irreversible death of RGCs. We also demonstrate that ongoing pathologic processes during the temporary recovery latent period (including abnormalities of RGC physiology) lead to future dysfunction of the visual system. We report that modification of PERG to provocative postural tilt testing elicits changes in PERG measurements that correlate with a key in vitro measures of damage: the spontaneous and light-evoked activity of RGCs. Treatment with P7C3-S243 immediately after injury and throughout the temporary recovery latent period protects mice from developing chronic visual system dysfunction.ConclusionsProvocative PERG testing serves as a noninvasive test in the living organism to identify early damage to the visual system, which may reflect corresponding damage in the brain that is not otherwise detectable by noninvasive means. This provides the basis for developing an earlier diagnostic test to identify patients at risk for developing chronic CNS and visual system damage after TBI at an earlier stage when treatments may be more effective in preventing these sequelae. In addition, treatment with the neuroprotective agent P7C3-S243 after TBI protects from visual system dysfunction after TBI.Copyright 2014 The Association for Research in Vision and Ophthalmology, Inc.
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