Carlsbad / Osaka / Cork / Neuroreport / Pittsburgh / Shizuoka-ken / San Jose / Santa Cruz / Vaquero / Pleasanton / Orlando / Burlingame / Newton / Boston / Vaudreuil / Oberkochen / Indorf / /
Company
Carl Zeiss Inc. / Boston Micromachines Corporation / Cambridge University Press / Vector Laboratories / Adobe Systems Inc. / Clarity Medical Systems Inc. / Donnelly / 4Optos plc / Shroff SA / Bayer / Adobe / Burns SA / Optos / Thorlabs Inc. / Unicon Corporation / /
Country
Japan / Canada / United Kingdom / Scotland / Germany / United States / Ireland / / /
Event
Natural Disaster / /
Facility
University of Houston / University of California at Berkeley / Laser Institute of America / Scale bar / University of California / University Committee / University of Rochester / Meliora Hall / /
IndustryTerm
in vivo cellular imaging / deviation image processing technique / subsequent imaging / vivo autofluorescence imaging / optics imaging / deviation image processing / retinal imaging experiments / high resolution retinal imaging / In vivo imaging resolution / twophoton imaging / in vivo imaging sessions / retinal imaging / fAOSLO imaging / ophthalmic devices / fluorescence imaging / imaging / Slit lamp imaging / High resolution imaging / confocal imaging / adaptive optics imaging / In vivo imaging / faster solution / digital imaging camera / in vivo imaging techniques / maximum achievable imaging field size / reflectance imaging / In vivo fluorescent imaging / similar imaging method / In vivo confocal imaging / vivo imaging / high-resolution fAOSLO imaging / ganglion cell imaging / In vivo time-lapse fluorescence imaging / high-resolution fluorescence imaging / Real-time imaging / distinguished using adaptive optics imaging / In vivo fluorescence imaging / cellular and subcellular imaging / maximum imaging field sizes / scanner control electronics / capillary network / in vivo imaging parameters / typical devices / in vivo fAOSLO imaging / images using graphics editing software / /
MedicalCondition
myopia / individual retinal ganglion / rhodamine-labeled macaque retinal ganglion / individual ganglion / JE / studies using rodent disease / refractive errors / rat retinal ganglion / Progressive ganglion / larger average refractive errors / also imaged ganglion / Large ganglion / stroke / To image ganglion / ganglion / fluorescently labeled ganglion / retinal ganglion cells / DBA/2J glaucoma / large refractive error / Power (D) Average Refractive Error / refractive error / ocular hypertension / astigmatism / glaucoma / Caprioli J. Retinal ganglion / murine retinal ganglion / Foundation Fighting Blindness / herpes / stroke MEMS / experimental glaucoma / retinal ganglion / single ganglion / large hyperopic refractive error / disease / infectious titer / human retinal degeneration / retinal disease / eGFP-labeled ganglion / primate retinal ganglion / neurodegenerative diseases / cataract / human disease / /
MedicalTreatment
gene therapy / drug therapies / /
Organization
Cambridge University / University of California / Laser Institute of America / Center for Adaptive Optics / Association for Research / Optical Society of America / University of Rochester / Rochester / National Science Foundation / University of Houston / Houston / Burroughs Welcome Fund / University Committee on Animal Resources / /
Person
Ying Geng / Rowland M. Prevalence / Richard T. Libby / Lana Nagy / None / Gene Ther / Alfredo Dubra / Mu ¨ller / Benjamin Masella / Marcos S. Optical / Andrew Winterborn / Lu Yin / Stephen Burns / Joseph Stamm / Terry Schaefer / William H. Merigan / Wendy Bates / Arch Ophthalmol / Mina Chung / Wayne Rasband / / /
Position
RT / Corresponding author / Hunter / animal model for human retinal degeneration / J.J. Hunter / /
Product
soma / DV / tropicamide / isoflurane / RGCs Intravitreal injections / indocyanine green / /