6533b860fe1ef96bd12c3228
RESEARCH PRODUCT
Effect of Varying Levels of Glare on Contrast Sensitivity Measurements of Young Healthy Individuals Under Photopic and Mesopic Vision
Steven M. ThurmanPinakin Gunvant DaveyAaron R. SeitzMarcello Manigliasubject
medicine.medical_specialtyVisual acuitygenetic structuresEcological validityMesopic visionmedia_common.quotation_subjectcontrast sensitivity functionlcsh:BF1-990AudiologyEyeLuminanceVisual processing03 medical and health sciences0302 clinical medicineglare effectClinical ResearchmedicineContrast (vision)PsychologyEye Disease and Disorders of VisionGeneral Psychologymedia_commonOriginal Researchvisual function measurementNeurosciencesGlare (vision)mesopic visioneye diseasesphotopic visionlcsh:Psychology030221 ophthalmology & optometryCognitive Sciencesmedicine.symptomPsychology030217 neurology & neurosurgeryPhotopic visiondescription
Contrast sensitivity (CS), the ability to detect small spatial changes of luminance, is a fundamental aspect of vision. However, while visual acuity is commonly measured in eye clinics, CS is often not assessed. At issue is that tests of CS are not highly standardized in the field and that, in many cases, optotypes used are not sensitive enough to measure graduations of performance and visual abilities within the normal range. Here, in order to develop more sensitive measures of CS, we examined how CS is affected by different combinations of glare and ambient lighting in young healthy participants. We found that low levels of glare have a relatively small impact on vision under both photopic and mesopic conditions, while higher levels had significantly greater consequences on CS under mesopic conditions. Importantly, we found that the amount of glare induced by a standard built-in system (69 lux) was insufficient to induce CS reduction, but increasing to 125 lux with a custom system did cause a significant reduction and shift of CS in healthy individuals. This research provides important data that can help guide the use of CS measures that yield more sensitivity to characterize visual processing abilities in a variety of populations with ecological validity for non-ideal viewing conditions such as night time driving.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-06-01 | Frontiers in Psychology |