Abstract
Pre-clinical testing of retinal pathology and treatment efficacy depends on reliable and valid measures of retinal function. The electroretinogram (ERG) and tests of visual acuity are the ideal standard, but can be unmeasurable while useful vision remains. Non-image-forming responses to light such as the pupillary light reflex (PLR) are attractive surrogates. However, it is not clear how accurately such responses reflect changes in visual capability in specific disease models. The purpose of this study was to test whether measures of non-visual responses to light correlate with previously determined visual function in two photoreceptor degenerations. The sensitivity of masking behavior (light induced changes in running wheel activity) and the PLR were measured in 3-month-old wild-type mice (WT) with intact inner retinal circuitry, Pde6b-rd1/rd1 mice (rd1) with early and rapid loss of rods and cones, and Prph2-Rd2/Rd2 mice (Rd2) with a slower progressive loss of rods and cones. In rd1 mice, negative masking had increased sensitivity, positive masking was absent, and the sensitivity of the PLR was severely reduced. In Rd2 mice, positive masking identified useful vision at higher light levels, but there was a limited decrease in the irradiance sensitivity of negative masking and the PLR, and the amplitude of change for both underestimated the reduction in irradiance sensitivity of image-forming vision. Together these data show that in a given disease, two responses to light can be affected in opposite ways, and that for a given response to light, the change in the response does not accurately represent the degree of pathology. However, the extent of the deficit in the PLR means that even a limited rescue of rod/cone function might be measured by increased PLR amplitude. In addition, positive masking has the potential to measure effective treatment in both models by restoring responses or shifting thresholds to lower irradiances.
Highlights
Pre-clinical testing of retinal pathology and treatment efficacy depends on reliable and valid measures of retinal function
The sensitivity of masking behavior and the pupillary light reflex (PLR) were measured in 3-month-old wild-type mice (WT) with intact inner retinal circuitry, Pde6b-rd1/rd1 mice with early and rapid loss of rods and cones, and Prph2-Rd2/Rd2 mice (Rd2) with a slower progressive loss of rods and cones
In Rd2 mice, positive masking identified useful vision at higher light levels, but there was a limited decrease in the irradiance sensitivity of negative masking and the PLR, and the amplitude of change for both underestimated the reduction in irradiance sensitivity of image-forming vision
Summary
Pre-clinical testing of retinal pathology and treatment efficacy depends on reliable and valid measures of retinal function. Non-image-forming responses to light such as the pupillary light reflex (PLR) are attractive surrogates It is not clear how accurately such responses reflect changes in visual capability in specific disease models. Contrast sensitivity, and the luminance range of visual behavior provide direct measures of visual function [3,4,5,6,7,8]. These tests can lack sensitivity when vision is severely reduced, and meaningful gains or losses in vision may be beyond this sensitivity limit. Non-image-forming responses to light include: (1) circadian rhythm entrainment that aligns internal clock time with external solar time; (2) modification of sleep propensity; (3) suppression of pineal melatonin synthesis; (4) the PLR that adjusts pupil size to changing light conditions; (5) ‘negative masking’ which is a suppression of locomotor activity in bright light; and (6) transient increases in activity at lights-on [9, 14,15,16,17,18]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
