Short-wavelength automated perimetry results are correlated with optical coherence tomography retinal nerve fiber layer thickness measurements in glaucomatous eyes.

PURPOSE: To determine the relationship between retinal nerve fiber layer (RNFL) thickness measured using optical coherence tomography (OCT) and short wavelength-sensitive visual function measured using short-wavelength automated perimetry (SWAP). DESIGN: Retrospective observational case series. METHODS: Subjects were recruited from the longitudinal University of California, San Diego, Diagnostic Innovations in Glaucoma Study and included 29 glaucoma patients with OCT imaging and reliable SWAP visual field (VF) testing within a 6-month window. MAIN OUTCOME MEASURES: Correlations between deviation from normal (thinner than 97.5% of normal) RNFL measurements taken at 30 degrees sectors (12 sectors described as clock hours) and SWAP average pattern deviation within 21 VF zones were determined. The number of OCT-measured RNFL sectors outside of normal limits and the number of VF zones outside of normal limits also were compared. RESULTS: The OCT nerve fiber layer thickness was outside of the normal limits in at least 1 sector in 26 (89.6%) patients. Twenty-eight (96.5%) patients had at least 1 SWAP VF zone outside of normal limits. Optical coherence tomography sectors 6-o'clock, 7-o'clock, and 8-o'clock (inferior and inferotemporal) and SWAP VF zones 13, 14, and 16 (superior hemifield central and arcuate areas) were the most frequently damaged. In general, the strongest R2 associations were between inferior and inferior temporal RNFL sectors (e.g., 6-o'clock, 7-o'clock) and superior nasal/arcuate VF zones (e.g., zones 13, 14, 15) and between superior and superior temporal RNFL sectors (e.g., 12-o'clock, 11-o'clock) and inferior central and arcuate VF zones (e.g., zones 5, 6, 7) (R2 range = 24.3%-37.3%, all Ps < or = 0.005). Most nonsignificant associations were found between superior RNFL sectors and superior VF zones. CONCLUSION: Retinal nerve fiber layer thickness measured with OCT is topographically correlated with glaucomatous VF defects measured with SWAP.

Lens opacities after posterior chamber phakic intraocular lens implantation.

PURPOSE: To describe a case series to determine the incidence of lens opacities after posterior chamber phakic intraocular lens (IOL) implantation (STAAR Surgical, Monrovia, CA) for very high ametropias. DESIGN: Retrospective, noncomparative, interventional case series. PARTICIPANTS: Fourteen eyes of 170 consecutive eyes with high ametropias in whom lens opacities developed after posterior chamber phakic IOL implant (PCPIOL). INTERVENTION: Posterior chamber phakic intraocular lens implant. MAIN OUTCOME MEASURES: Lens opacity appearance, localization, and clinical course. RESULTS: Fourteen eyes developed lens opacities 125 +/- 116 days after phakic IOL implant. All eyes had anterior subcapsular opacities, and two eyes also developed nuclear sclerosis. The anterior opacities did not extend posteriorly within the lens, and there were no posterior subcapsular cataracts. Seventy-one percent of opacities were first seen

Refractory intraocular pressure increase after phakic posterior chamber intraocular lens implantation.

PURPOSE: To describe a complication resulting from the implantation of a posterior chamber intraocular lens in a phakic eye. DESIGN: Interventional case report. METHODS: We examined a 37-year-old woman with severe myopia who had implantation of a phakic posterior chamber intraocular lens. RESULTS: The patient developed pigmentary glaucoma with refractory increase in intraocular pressure, despitemedical therapy and intraocular lens removal. Trabeculectomy was required to reduce the pressure. CONCLUSION: This case demonstrates that pigmentary glaucoma secondary to implantation of a phakic posterior chamber intraocular lens can lead to filtering surgery to decrease intraocular pressure.