Photoreceptor Impairment and Restoration on Optical Coherence Tomographic Image

To evaluate the validity of commonly used anatomical designations for the four hyperreflective outer retinal bands seen in current-generation optical coherence tomography, a scale model of outer retinal morphology was created using published information for direct comparison with optical coherence tomography scans. Articles and books concerning histology of the outer retina from 1900 until 2009 were evaluated, and data were used to create a scale model drawing. Boundaries between outer retinal tissue compartments described by the model were compared with intensity variations of representative spectral-domain optical coherence tomography scans using longitudinal reflectance profiles to determine the region of origin of the hyperreflective outer retinal bands. This analysis showed a high likelihood that the spectral-domain optical coherence tomography bands attributed to the external limiting membrane (the first, innermost band) and to the retinal pigment epithelium (the fourth, outermost band) are correctly attributed. Comparative analysis showed that the second band, often attributed to the boundary between inner and outer segments of the photoreceptors, actually aligns with the ellipsoid portion of the inner segments. The third band corresponded to an ensheathment of the cone outer segments by apical processes of the retinal pigment epithelium in a structure known as the contact cylinder. Anatomical attributions and subsequent pathophysiologic assessments pertaining to the second and third outer retinal hyperreflective bands may not be correct. This analysis has identified testable hypotheses for the actual correlates of the second and third bands. Nonretinal pigment epithelium contributions to the fourth band (e.g., Bruch membrane) remain to be determined.

To evaluate reconstructive changes in foveal microstructures and identify a correlation with visual outcomes in eyes with surgically closed macular holes (MHs). Retrospective, consecutive, observational case series. Forty eyes (40 patients) with surgically closed MHs. Spectral-domain optical coherence tomography (SD-OCT) was performed to assess the foveal microstructural changes 3 and 12 months postoperatively. The correlation between the postoperative best-corrected visual acuity (BCVA) and the integrity of the foveal photoreceptor layer was evaluated. The integrity of the back-reflection lines from the photoreceptor inner segment (IS) and outer segment (OS) junction and the external limiting membrane (ELM) on SD-OCT images and the BCVA measured on the same day. The integrity of the foveal photoreceptor layer was the only postoperative SD-OCT finding significantly associated with the 3-month BCVA (r=0.483; P=0.002). The eyes were categorized into 3 groups according to restoration of the IS/OS junction and ELM signals: 6 eyes (15%) in group A with complete restoration of the IS/OS junction and the ELM; 26 eyes (65%) in group B with a disrupted IS/OS junction and intact ELM; and 8 eyes (20%) in group C with disruption or loss of the IS/OS junction and the ELM. Although the baseline BCVA did not differ significantly (P=0.137) among groups, the mean 3-month BCVA values in groups A and B, both with reconstructed ELM with or without a restored photoreceptor IS/OS, were significantly better than in group C (P 0.05). Groups A (P=0.029) and B (P<0.001) had significant visual improvement at 12 months; group C did not have marked visual recovery. Fourteen eyes (54%) in group B had subsequent realignment of the foveal photoreceptor IS/OS; no eyes in group C had a restored IS/OS at 12 months. The presence of the ELM at 3 months is a critical structural feature significantly correlated with the BCVA at 12 months (r=0.832, P<0.001). Reconstruction of the foveal ELM in the early postoperative period helps predict subsequent restoration of the foveal photoreceptor layer and the potential for better visual outcomes. Copyright © 2010 American Academy of Ophthalmology. Published by Elsevier Inc. All rights reserved.

To evaluate foveal microstructural changes in eyes with anatomically successful repair of rhegmatogenous retinal detachments (RRDs). Retrospective, consecutive, observational case series. Fifty-three eyes of 51 consecutive patients with macula-on RRDs (15 eyes) or macula-off RRDs (38 eyes) after anatomically successful surgical repair. A microscopic fundus examination was conducted followed by Fourier-domain optical coherence tomography (FD-OCT) to assess the postoperative foveal microstructure. The correlation between the postoperative best-corrected visual acuity (BCVA) and microstructural findings at the fovea was evaluated. Images of the foveal microstructure obtained by FD-OCT and the BCVA measured on the same day. We obtained FD-OCT images a mean of 10.3+/-7.3 months (range, 1-25) postoperatively. Foveal anatomic abnormalities were detected in 33 eyes (62%); disruption of the junction between the photoreceptor inner and outer segments (IS/OS) in 23 eyes (43%), of which 9 eyes (39%) had a disrupted external limiting membrane (ELM); residual subretinal fluid in 6 eyes (11%), epiretinal membranes in 12 eyes (23%), and cystoid macular edema in 2 eyes (4%). Disruption of the photoreceptor IS/OS junction was observed only in macula-off eyes, whereas other microstructural abnormalities were observed in both macula-on and macula-off eyes. In preoperative macula-off eyes, the postoperative BCVA was significantly correlated with the integrity of the photoreceptor IS/OS and ELM signals detected by FD-OCT postoperatively (r=0.805; P<0.001). Of the 16 eyes followed by FD-OCT, the photoreceptor IS/OS junction was restored in 7 (64%) of the 11 eyes with a disrupted back-reflection line from the IS/OS junction, but without disrupted ELM signals at the initial examination. Of the 5 eyes with disrupted back-reflection lines from both IS/OS junction and ELM at the initial examination, the photoreceptor layer was not restored completely during the follow-up period in any eyes. After anatomically successful RRD repair, FD-OCT is a valuable, noninvasive tool for evaluating foveal microstructural changes. The integrity of the photoreceptor IS/OS junction and ELM signals detected by FD-OCT may account for visual restoration in patients with preoperative macula-off RRDs. Preservation of the ELM postoperatively may predict the subsequent restoration of the photoreceptor layer.