CLASSIFICATION OF SCLEROCHOROIDAL CALCIFICATION BASED ON ENHANCED DEPTH IMAGING OPTICAL COHERENCE TOMOGRAPHY "MOUNTAIN-LIKE" FEATURES.

Abstract

To describe distinct enhanced depth optical coherence tomography patterns of sclerochoroidal calcification and their correlation to clinical features. Retrospective chart review of 67 eyes of 46 patients with spectral domain optical coherence tomography imaging. The mean patient age at diagnosis was 68 years. There were 20 (43%) men and 26 (57%) women of white (n = 45, 98%) or Hispanic (n = 1, 2%) heritage. The most prominent sclerochoroidal calcification lesions were located in the superotemporal quadrant (n = 57, 85%) between the temporal arcades and the equator (n = 58, 87%). On enhanced depth optical coherence tomography, the sclerochoroidal calcification was located within the sclera in all cases and the inner surface topography assumed specific "mountain-like" patterns, including flat (Type 1) (n = 9) at median thickness of 1.2 mm, rolling (Type 2) (n = 28) at 1.4 mm thickness, rocky-rolling (Type 3) (n = 21) at 2.1 mm thickness, and table mountain (Type 4) (n = 9) at a thickness of 1.9 mm. The retinal layers were undisturbed in flat lesions, and outer retinal abnormalities were found in all other types. A comparison of the 4 types revealed that Type 3 lesions were thickest (P < 0.001), showing abnormalities in the retinal pigment epithelium, ellipsoid region, and external limiting membrane most commonly (P < 0.05) and demonstrating the most dramatic thinning of the overlying choroid (P < 0.01) and retina (P < 0.05). Type 4 lesions showed greatest basal diameter (P < 0.01) and least outer retinal abnormalities (P < 0.05) or choroid thinning (P < 0.05). In this report, enhanced depth optical coherence tomography has demonstrated that sclerochoroidal calcification is a scleral-based disease and can be classified based on four "mountain-like" topographic patterns, associated with variable effects on the choroid and retina.