OBJECTIVE: To test the hypothesis that the more severe the acute phase retinopathy of prematurity (ROP) was in the preterm weeks, the more severely compromised is rod photoreceptor function after the ROP has resolved. METHODS: Electroretinographic (ERG) responses were recorded from 25 dark-adapted children (ages 2.5 months' postterm to 14 years) categorized by maximum, acute phase ROP (None to Very Severe). From the ERG a-wave "S," a sensitivity parameter for the rod photoreceptor response, and R(mp3), the saturated amplitude of the rod photoreceptor response were calculated using a model of the activation of rod phototransduction. The patients' results were compared with those of healthy controls (n = 71). RESULTS: Among those in the None, Mild, Moderate, and Severe categories, both S and R(mp3) varied significantly with severity of acute phase ROP. In the Very Severe category, ERG responses were too attenuated to calculate S and R(mp3). CONCLUSIONS: The rod photoreceptors must be involved in ROP. The more severe the acute phase ROP, the more severe is the compromise of the processes involved in the activation of phototransduction in the rods.
OBJECTIVE: To test the hypothesis that the more severe the acute phase retinopathy of prematurity (ROP) was in the preterm weeks, the more severely compromised is rod photoreceptor function after the ROP has resolved. METHODS: Electroretinographic (ERG) responses were recorded from 25 dark-adapted children (ages 2.5 months' postterm to 14 years) categorized by maximum, acute phase ROP (None to Very Severe). From the ERG a-wave "S," a sensitivity parameter for the rod photoreceptor response, and R(mp3), the saturated amplitude of the rod photoreceptor response were calculated using a model of the activation of rod phototransduction. The patients' results were compared with those of healthy controls (n = 71). RESULTS: Among those in the None, Mild, Moderate, and Severe categories, both S and R(mp3) varied significantly with severity of acute phase ROP. In the Very Severe category, ERG responses were too attenuated to calculate S and R(mp3). CONCLUSIONS: The rod photoreceptors must be involved in ROP. The more severe the acute phase ROP, the more severe is the compromise of the processes involved in the activation of phototransduction in the rods.
Authors: M A Crawford; I Golfetto; K Ghebremeskel; Y Min; T Moodley; L Poston; A Phylactos; S Cunnane; W Schmidt Journal: Lipids Date: 2003-04 Impact factor: 1.880