Amelioration of Experimental Lipid Keratopathy by Photochemically Induced Thrombosis of Feeder Vessels

Alan D. Mendelsohn; Eduardo C. Alfonso; Mark Lieb; Gary P. Mendelsohn; Richard K. Forster; Jay J. Dennis; Brant D. Watson

doi:10.1001/archopht.1987.01060070127041

Amelioration of Experimental Lipid Keratopathy by Photochemically Induced Thrombosis of Feeder Vessels

Alan D. Mendelsohn, Eduardo C. Alfonso, Mark Lieb, Gary P. Mendelsohn, Richard K. Forster, Jay J. Dennis, Brant D. Watson

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

The photochemical interaction between intravenously injected rose bengal dye and 514.5-nm argon laser irradiation was employed to initiate permanent thrombotic occlusions in the corneal neovasculature of rabbit eyes with experimentally induced lipid keratopathy. This photothrombotic procedure did not produce corneal edema or polymorphonuclear leukocyte infiltration, as was found in previous studies employing laserinduced photocoagulation. Thus, by means of the new technique, we avoided the formation of additional neovascularization and lipid deposition. Vascular occlusion by photothrombosis, effected with 8.5 times less incident intensity and 27.5 times less total light exposure than with photocoagulation, yielded an average reduction of corneal cholesterol content of 36% as opposed to an increase of 24% found with previous argon laser photocoagulation.

Original language	English
Pages (from-to)	983-988
Number of pages	6
Journal	Archives of Ophthalmology
Volume	105
Issue number	7
DOIs	https://doi.org/10.1001/archopht.1987.01060070127041
State	Published - Jul 1987
Externally published	Yes

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title = "Amelioration of Experimental Lipid Keratopathy by Photochemically Induced Thrombosis of Feeder Vessels",

abstract = "The photochemical interaction between intravenously injected rose bengal dye and 514.5-nm argon laser irradiation was employed to initiate permanent thrombotic occlusions in the corneal neovasculature of rabbit eyes with experimentally induced lipid keratopathy. This photothrombotic procedure did not produce corneal edema or polymorphonuclear leukocyte infiltration, as was found in previous studies employing laserinduced photocoagulation. Thus, by means of the new technique, we avoided the formation of additional neovascularization and lipid deposition. Vascular occlusion by photothrombosis, effected with 8.5 times less incident intensity and 27.5 times less total light exposure than with photocoagulation, yielded an average reduction of corneal cholesterol content of 36% as opposed to an increase of 24% found with previous argon laser photocoagulation.",

author = "Mendelsohn, {Alan D.} and Alfonso, {Eduardo C.} and Mark Lieb and Mendelsohn, {Gary P.} and Forster, {Richard K.} and Dennis, {Jay J.} and Watson, {Brant D.}",

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AU - Mendelsohn, Alan D.

AU - Alfonso, Eduardo C.

AU - Lieb, Mark

AU - Mendelsohn, Gary P.

AU - Forster, Richard K.

AU - Dennis, Jay J.

AU - Watson, Brant D.

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AB - The photochemical interaction between intravenously injected rose bengal dye and 514.5-nm argon laser irradiation was employed to initiate permanent thrombotic occlusions in the corneal neovasculature of rabbit eyes with experimentally induced lipid keratopathy. This photothrombotic procedure did not produce corneal edema or polymorphonuclear leukocyte infiltration, as was found in previous studies employing laserinduced photocoagulation. Thus, by means of the new technique, we avoided the formation of additional neovascularization and lipid deposition. Vascular occlusion by photothrombosis, effected with 8.5 times less incident intensity and 27.5 times less total light exposure than with photocoagulation, yielded an average reduction of corneal cholesterol content of 36% as opposed to an increase of 24% found with previous argon laser photocoagulation.

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Amelioration of Experimental Lipid Keratopathy by Photochemically Induced Thrombosis of Feeder Vessels

Abstract

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