Analysis of Standard Automated Visual Field Tests in Glaucoma and the Role of Facial Contour.

PRCIS

Using a CNN-enhanced platform, 60-4 visual fields identified peripheral glaucomatous defects missed by central testing in mild cases; facial contour correction showed these defects occurred exclusively outside the temporal visual field.

PURPOSE

To develop a methodology to separate facial contour-induced visual field defects from defects related to glaucoma in patients with peripheral field defects.

METHODS

Ninety-seven eyes from 50 patients previously diagnosed with glaucoma were enrolled in the study. Thirty-one (62%) participants were male, and 86% were white. The study involved patients with glaucoma who underwent visual field testing using standard automated perimetry, including 10-2, 24-2, 30-2, and 60-4 visual fields. A convolutional neural network (CNN)-enhanced platform, previously developed to identify facial contour-dependent defects in healthy subjects, was used to analyze the visual field data.

PATIENTS

The study included 97 eyes from 50 patients with glaucoma, with the majority having primary open angle glaucoma.

RESULTS

In 90 out of 97 eyes, there were 60-4 visual field defects. However, 20 (22%) of these eyes did not have glaucomatous defects on the 10-2 or 30-2 visual fields. All patients with 60-4 defects in the absence of more central defects had mild glaucoma, and these eyes comprised 38% of the mild glaucoma group. 60-4 visual field increased the sensitivity of identifying glaucoma in mild disease. Without facial contour, the 60-4 visual field mean threshold summation was 1099.6±346.6 dB, and decreased to 1057±331 dB when accounting for facial contour, which affected 8.03%±4.02% of test points. Facial contour-dependent visual field defects were exclusively found outside the temporal visual field.

CONCLUSION

The study demonstrated the potential utility of 60-4 visual fields for identifying early functional glaucomatous changes that may not be detected by more central visual field tests (10-2 or 30-2). It may be important to consider peripheral visual field defects, which can be affected by facial contour, in the diagnosis and monitoring of glaucoma, particularly in mild cases.