Photoscreener results with and without cycloplegia and their reliability according to biometric parameters.

PURPOSE: Our goal in this study is to compare the results of a photoscreener (Plusoptix A12C) with and without cycloplegia and to investigate its reliability as a function of biometric parameters. METHODS: In total, 250 eyes of 125 children with a mean age of 6.77±1.59years were included in the study. The results of cycloplegic and noncycloplegic Plusoptix A12C measurements and autorefractometer with cycloplegia (CA) were compared. The spherical equivalent (SE) differences between CA and noncycloplegic Plusoptix A12C measurements (NPO) with CA and cycloplegic Plusoptix A12C measurements (CPO) were compared with axial length (AL), anterior chamber depth (ACD), corneal radius of curvature (CR), mean keratometry (meanK) and axial length/corneal radius of curvature ratio (AL/CR) values. The relationships between these were examined. RESULTS: According to amblyopia risk factors (ARFs) based on the criteria in the 2013 AAPOS guidelines, 33 eyes (13%) in the NPO results and 34 eyes (13.6%) in the CPO results were found to be at risk for amblyopia. According to the CA results, the NPO had 67.3% sensitivity and 94.5% specificity, and the CPO 69.4% sensitivity and 89.1% specificity in detecting the values of refractive amblyopia factors determined by the AAPOS. In regard to refraction values determined by the AAPOS for amblyopia, according to CA results, the NPO had 71.4% sensitivity and 88.4% specificity in detecting myopia; 33.3% sensitivity and 93.6% specificity in detecting hyperopia; and 79.4% specificity and 71.2% sensitivity in detecting astigmatism. With regard to refraction values determined by the AAPOS for amblyopia, according to CA results, the CPO had 80.9% sensitivity and 90% specificity in detecting myopia; 13.3% sensitivity and 89.2% specificity in detecting hyperopia; and 44.9% sensitivity and 30.8% specificity in detecting astigmatism. When the SE differences between the CA and NPO values were compared with biometric parameters, a negative correlation was observed with ACD, AL, and especially AL/CR ratio. CONCLUSION: Both the NPO and CPO showed moderate sensitivity and high specificity in detecting ARFs based on the criteria in the 2013 AAPOS guidelines. Sensitivity for detecting hyperopic risk factors was lower than for myopia and astigmatism. The CPO has no additional clinical advantage. A negative correlation was found between biometric parameters and NPO results. Thus, the NPO is more reliable in myopic children with higher axial lengths, deeper anterior chambers, and increased AL/CR ratios.