OBJECTIVE: To evaluate characteristics of small choroidal melanoma using enhanced depth imaging spectral-domain optical coherence tomography (EDI-OCT). DESIGN: Retrospective comparative analysis. RESULTS: Of 37 eyes with small choroidal melanoma imaged using EDI-OCT, the mean tumor thickness was 1025 μm by EDI-OCT compared with 2300 μm by ultrasonography. By EDI-OCT, choroidal features included optical shadowing in 36 (100%) and overlying choriocapillaris thinning in 37 (100%). Outer retinal features included shaggy photoreceptors in 18 (49%), as well as absence (structural loss) of photoreceptors in 9 (24%), inner segment-outer segment junction in 24 (65%), external limiting membrane in 16 (43%), outer nuclear layer in 6 (16%), and outer plexiform layer in 4 (11%). Inner retinal features included irregularity of inner nuclear layer in 3 (8%), inner plexiform layer in 3 (8%), ganglion cell layer in 3 (8%), and nerve fiber layer in 2 (5%). Also identified were subretinal fluid in 34 (92%), subretinal lipofuscin deposition in 35 (95%), and intraretinal edema in 6 (16%). Using EDI-OCT, a comparison with similar-sized choroidal nevus revealed that small choroidal melanoma showed increased tumor thickness, subretinal fluid, subretinal lipofuscin deposition, and retinal pigment epithelium atrophy. Statistically significant EDI-OCT features for small choroidal melanoma included intraretinal edema (P=.003), shaggy photoreceptors or loss of photoreceptors (P=.005), loss of external limiting membrane (P=.008), loss of inner segment-outer segment junction (P=.02), irregularity of inner plexiform layer (P=.04), and irregularity of ganglion cell layer (P=.04) (t test and χ2 test). Shaggy photoreceptors were found overlying small choroidal melanoma in 18 (49%) but were not observed overlying choroidal nevus (P<.001). CONCLUSIONS: Small choroidal melanoma tumor thickness was overestimated by 55% on ultrasonography compared with EDI-OCT. The EDI-OCT features of small choroidal melanoma compared with choroidal nevus include increased tumor thickness, subretinal fluid, subretinal lipofuscin deposition, and retinal irregularities, including shaggy photoreceptors.
OBJECTIVE: To evaluate characteristics of small choroidal melanoma using enhanced depth imaging spectral-domain optical coherence tomography (EDI-OCT). DESIGN: Retrospective comparative analysis. RESULTS: Of 37 eyes with small choroidal melanoma imaged using EDI-OCT, the mean tumor thickness was 1025 μm by EDI-OCT compared with 2300 μm by ultrasonography. By EDI-OCT, choroidal features included optical shadowing in 36 (100%) and overlying choriocapillaris thinning in 37 (100%). Outer retinal features included shaggy photoreceptors in 18 (49%), as well as absence (structural loss) of photoreceptors in 9 (24%), inner segment-outer segment junction in 24 (65%), external limiting membrane in 16 (43%), outer nuclear layer in 6 (16%), and outer plexiform layer in 4 (11%). Inner retinal features included irregularity of inner nuclear layer in 3 (8%), inner plexiform layer in 3 (8%), ganglion cell layer in 3 (8%), and nerve fiber layer in 2 (5%). Also identified were subretinal fluid in 34 (92%), subretinal lipofuscin deposition in 35 (95%), and intraretinal edema in 6 (16%). Using EDI-OCT, a comparison with similar-sized choroidal nevus revealed that small choroidal melanoma showed increased tumor thickness, subretinal fluid, subretinal lipofuscin deposition, and retinal pigment epithelium atrophy. Statistically significant EDI-OCT features for small choroidal melanoma included intraretinal edema (P=.003), shaggy photoreceptors or loss of photoreceptors (P=.005), loss of external limiting membrane (P=.008), loss of inner segment-outer segment junction (P=.02), irregularity of inner plexiform layer (P=.04), and irregularity of ganglion cell layer (P=.04) (t test and χ2 test). Shaggy photoreceptors were found overlying small choroidal melanoma in 18 (49%) but were not observed overlying choroidal nevus (P<.001). CONCLUSIONS: Small choroidal melanoma tumor thickness was overestimated by 55% on ultrasonography compared with EDI-OCT. The EDI-OCT features of small choroidal melanoma compared with choroidal nevus include increased tumor thickness, subretinal fluid, subretinal lipofuscin deposition, and retinal irregularities, including shaggy photoreceptors.
Authors: Ryan P McNabb; Dilraj S Grewal; Rajvi Mehta; Stefanie G Schuman; Joseph A Izatt; Tamer H Mahmoud; Glenn J Jaffe; Prithvi Mruthyunjaya; Anthony N Kuo Journal: Br J Ophthalmol Date: 2016-01-11 Impact factor: 4.638
Authors: Chandrakumar Balaratnasingam; Jeffrey D Messinger; Kenneth R Sloan; Lawrence A Yannuzzi; K Bailey Freund; Christine A Curcio Journal: Ophthalmology Date: 2017-01-30 Impact factor: 12.079
Authors: Katie M Litts; Jeffrey D Messinger; K Bailey Freund; Yuhua Zhang; Christine A Curcio Journal: Invest Ophthalmol Vis Sci Date: 2015-04 Impact factor: 4.799