PURPOSE: To test the hypothesis that early rod dysfunction predicts the blood vessel abnormalities that are the clinical hallmark of retinopathy of prematurity (ROP). METHODS: Two rat models of ROP, induced by exposure to alternating 50%/10% oxygen (50/10 model) from postnatal day (P) 0 to P14, or exposure to 75% oxygen (75 model) from P7 to P14, and controls reared in room air were studied. In a longitudinal design, electroretinographic (ERG) records and digital fundus images were obtained at P20 +/- 1, P30 +/- 1, and P60 +/- 1. Rod sensitivity was derived from the ERG a-wave. Integrated curvature for the arterioles was calculated using Retinal Image multi-Scale Analysis (RISA) software. RESULTS: In both ROP models, rod sensitivity was low at P20. Sensitivity improved by P60 in the 50/10 model, but remained low in the 75 model. Integrated curvature was high at P20 in both ROP models, decreased nearly to normal by P30 in the 50/10 model, but remained high in the 75 model, even at P60. At P20, rod sensitivity correlated with integrated vessel curvature. Furthermore, low rod sensitivity at P20 predicted abnormal retinal vasculature--that is, high integrated curvature--at P30 and P60. In contrast, vessel curvature at P20 did not predict sensitivity at P30 or P60. CONCLUSIONS: The rods may instigate the vascular abnormalities that are the clinical hallmark of ROP.
PURPOSE: To test the hypothesis that early rod dysfunction predicts the blood vessel abnormalities that are the clinical hallmark of retinopathy of prematurity (ROP). METHODS: Two rat models of ROP, induced by exposure to alternating 50%/10% oxygen (50/10 model) from postnatal day (P) 0 to P14, or exposure to 75% oxygen (75 model) from P7 to P14, and controls reared in room air were studied. In a longitudinal design, electroretinographic (ERG) records and digital fundus images were obtained at P20 +/- 1, P30 +/- 1, and P60 +/- 1. Rod sensitivity was derived from the ERG a-wave. Integrated curvature for the arterioles was calculated using Retinal Image multi-Scale Analysis (RISA) software. RESULTS: In both ROP models, rod sensitivity was low at P20. Sensitivity improved by P60 in the 50/10 model, but remained low in the 75 model. Integrated curvature was high at P20 in both ROP models, decreased nearly to normal by P30 in the 50/10 model, but remained high in the 75 model, even at P60. At P20, rod sensitivity correlated with integrated vessel curvature. Furthermore, low rod sensitivity at P20 predicted abnormal retinal vasculature--that is, high integrated curvature--at P30 and P60. In contrast, vessel curvature at P20 did not predict sensitivity at P30 or P60. CONCLUSIONS: The rods may instigate the vascular abnormalities that are the clinical hallmark of ROP.
Authors: Andreas Stahl; Kip M Connor; Przemyslaw Sapieha; Jing Chen; Roberta J Dennison; Nathan M Krah; Molly R Seaward; Keirnan L Willett; Christopher M Aderman; Karen I Guerin; Jing Hua; Chatarina Löfqvist; Ann Hellström; Lois E H Smith Journal: Invest Ophthalmol Vis Sci Date: 2010-06 Impact factor: 4.799
Authors: Daniel X Hammer; Nicusor V Iftimia; R Daniel Ferguson; Chad E Bigelow; Teoman E Ustun; Amber M Barnaby; Anne B Fulton Journal: Invest Ophthalmol Vis Sci Date: 2008-01-25 Impact factor: 4.799
Authors: Yuta Saito; Abhineet Uppal; Grace Byfield; Steven Budd; M Elizabeth Hartnett Journal: Invest Ophthalmol Vis Sci Date: 2008-04 Impact factor: 4.799