PURPOSE: To investigate functional alteration of the retina induced by sildenafil in monkeys. METHODS: Sildenafil was administered intravenously to cynomolgus monkeys at dose levels of 0, 1, 3, and 10 mg/kg, and standard full-field electroretinograms (ERGs) were recorded. The rod and cone a-waves in response to high-intensity flashes were also analyzed by the a-wave fitting model (a-wave analysis). Additionally, the photopic negative responses were recorded. RESULTS: Sildenafil at 3 mg/kg or more induced the following alterations in the standard full-field ERGs immediately after dosing: delayed b-wave in the rod response; delayed a-wave in the combined rod-cone response; and attenuated b-waves in the single-flash cone response and in the 30 Hz flicker. Additionally, the following changes were observed in the 10 mg/kg group: attenuated b-wave in the rod response; attenuated a-wave and delayed b-wave in the combined rod-cone response; delayed oscillatory potentials; and attenuated and delayed a-wave in the single-flash cone response. In the a-wave analysis immediately after dosing, sildenafil selectively decreased the sensitivity parameter (S) in the cone a-wave at 3 mg/kg, and in both the rod and cone a-waves at 10 mg/kg. The S value was highly correlated with plasma sildenafil concentration. The above changes fully recovered 24 hours after dosing. CONCLUSIONS: Sildenafil produced reversible impairment of the rod and cone phototransduction in monkeys. Meanwhile, involvement of the postreceptoral retinal components was suggested. These findings contribute to the clarification of sildenafil-induced visual disturbances. It is suggested that the photoreceptors are predominantly, but not exclusively, affected in the retina of humans with sildenafil-induced visual disturbances. Copyright 2015 The Association for Research in Vision and Ophthalmology, Inc.
PURPOSE: To investigate functional alteration of the retina induced by sildenafil in monkeys. METHODS:Sildenafil was administered intravenously to cynomolgus monkeys at dose levels of 0, 1, 3, and 10 mg/kg, and standard full-field electroretinograms (ERGs) were recorded. The rod and cone a-waves in response to high-intensity flashes were also analyzed by the a-wave fitting model (a-wave analysis). Additionally, the photopic negative responses were recorded. RESULTS:Sildenafil at 3 mg/kg or more induced the following alterations in the standard full-field ERGs immediately after dosing: delayed b-wave in the rod response; delayed a-wave in the combined rod-cone response; and attenuated b-waves in the single-flash cone response and in the 30 Hz flicker. Additionally, the following changes were observed in the 10 mg/kg group: attenuated b-wave in the rod response; attenuated a-wave and delayed b-wave in the combined rod-cone response; delayed oscillatory potentials; and attenuated and delayed a-wave in the single-flash cone response. In the a-wave analysis immediately after dosing, sildenafil selectively decreased the sensitivity parameter (S) in the cone a-wave at 3 mg/kg, and in both the rod and cone a-waves at 10 mg/kg. The S value was highly correlated with plasma sildenafil concentration. The above changes fully recovered 24 hours after dosing. CONCLUSIONS:Sildenafil produced reversible impairment of the rod and cone phototransduction in monkeys. Meanwhile, involvement of the postreceptoral retinal components was suggested. These findings contribute to the clarification of sildenafil-induced visual disturbances. It is suggested that the photoreceptors are predominantly, but not exclusively, affected in the retina of humans with sildenafil-induced visual disturbances. Copyright 2015 The Association for Research in Vision and Ophthalmology, Inc.
Authors: Bruce A Berkowitz; Robert H Podolsky; Karen Lins Childers; Aicha Saadane; Timothy S Kern; Robin Roberts; Hailey Olds; Joydip Joy; Collin Richards; Tilman Rosales; Michael Schneider; Brennan Schilling; Arthur Orchanian; Emma Graffice; Kenan Sinan; Haohua Qian; Lamis Harp Journal: PLoS One Date: 2021-03-04 Impact factor: 3.752
Authors: Birthe Dorgau; Maria Georgiou; Alexander Chaudhary; Marina Moya-Molina; Joseph Collin; Rachel Queen; Gerrit Hilgen; Tracey Davey; Philip Hewitt; Michael Schmitt; Stefan Kustermann; Francois Pognan; David H Steel; Evelyne Sernagor; Lyle Armstrong; Majlinda Lako Journal: Stem Cells Transl Med Date: 2022-03-17 Impact factor: 7.655