26 Driven by new high-resolution imaging modalities, such as SD-O

26 Driven by new high-resolution imaging modalities, such as SD-OCT and autofluorescence (AF) imaging, in vivo

studies have been presented on intraretinal healing processes after photocoagulation. Muqit and associates described laser lesions after micro-pulse photocoagulation (PASCAL) showing hypoautofluorescence in the selleck compound short term (1 hour) after photocoagulation and suggested a spatial correspondence with blockage of background signal on AF attributable to the hyperreflective columns in the outer retinal layers. In a longer follow-up, they observed initial hyperautofluorescence of the laser lesions (until month 6), suggesting a window defect and increased lipofuscin production at the lesion sites followed by hypoautofluorescence until the end of the observation period (18 months).27 Also, Framme and associates recently presented a study in which conventional photocoagulation was compared with selective retinal treatment using SD-OCT imaging. They described an initial accumulation of lipofuscin in the outer retina as being a by-product of therapeutic metabolic effects. Further, they suggested that the AF evolution over time results from lipofuscin deposits of coagulated photoreceptors or RPE cells.28 In contrast

to SD-OCT, polarization-sensitive OCT is capable of gathering additional information on the sample using the Libraries polarization properties of light. The polarization-sensitive OCT instrument enables several different physical quantities—intensity, retardation, birefringent Panobinostat supplier Thiamine-diphosphate kinase axis orientation, and degree of polarization uniformity—to be obtained simultaneously within the same imaging process. Baumann and associates investigated the polarization properties of melanin samples.29 In their study solutions of different concentrations

of ovoid melanin particles were produced and polarization-sensitive OCT data sets of these were recorded. Depolarization was more pronounced for higher concentrations of melanin and decreased for lower melanin concentrations. Since the polarization-scrambling character of the melanin solution was in analogy to that of pigmented ocular structures, Bauman and associates concluded that the depolarizing appearance of the RPE are likely attributable to the similar melanin granules contained within.29 In the present study, the intrinsic tissue property of the retinal pigment epithelium to depolarize backscattered light was uniquely used to identify and differentiate the retinal pigment epithelium from otherwise fibrotic tissue even after thermal distortion or regeneration processes. The findings in the present study may complement previous studies and findings based on other imaging techniques or even offer an alternative explanation.

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