Clinicopathological analysis of 719 pediatric and adolescents' ocular tumors and tumor-like lesions: a retrospective study from 2000 to 2018 in China.

AIM: To describe the clinicopathologic features and classification of pediatric and adolescent ocular tumors and tumor-like lesions. METHODS: A total of 719 cases of pathologically confirmed ocular tumors and tumor-like lesions in a pediatric population from two academic institutions over an 18-year period were retrospectively analyzed. The main outcome measures were the clinical and pathological features of the cases. RESULTS: Benign tumors accounted for 92.1% of all cases while malignant tumors accounted for 7.9%. The most common ocular benign tumors were (epi-)dermoid cysts (19.8%), nevi (15.2%), corneal dermoid tumors (9.8%), and calcified epitheliomas (8.8%). The most common ocular malignant tumors were retinoblastoma (80.8%), and rhabdomyosarcoma (3.9%). Eyelid and ocular surface tumors comprised 73.3% of benign tumors while intraocular and orbital cavity comprised 94.2% of malignant tumors. For tumor site, the upper eyelid was up to 1.79 times more than lower eyelid (P<0.05). Age at surgery and sex also had an association with different lesions (P=0.006, P=0.035, respectively). CONCLUSION: Most ocular tumors and tumor-like lesions in children and adolescents are benign. Pediatric ocular tumors are distinct from those in adults in terms of histological origin. (Epi-)dermoid cysts are the most common benign tumors while retinoblastomas the most common malignant tumors.

COMPARISON OF PROJECTION-RESOLVED OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY-BASED METRICS FOR THE EARLY DETECTION OF RETINAL MICROVASCULAR IMPAIRMENTS IN DIABETES MELLITUS.

PURPOSE: To determine the ability of nonperfusion, vessel density, and morphologic measurements using projection-resolved optical coherence tomography angiography to detect early retinal microvasculature impairments in diabetes mellitus. METHODS: A retrospective review was performed on Type 2 diabetes mellitus patients with no diabetic retinopathy (DR) or mild nonproliferative DR and age-matched controls imaged with optical coherence tomography angiography. Foveal avascular zone-related metrics and extrafoveal avascular area were measured in optical coherence tomography angiography images. Vessel density and fractal dimension were calculated with and without a skeletonization process. The vessel diameter index and vessel tortuosity were computed. The area under the receiver operating characteristic curve (AUC) estimated diagnostic performances. RESULTS: Dilated capillary diameter was observed in the deep capillary plexus in the diabetic groups. Vessel density and fractal dimension of skeletonized deep capillary plexus significantly and progressively decreased in the no DR and mild nonproliferative DR groups compared with controls. Superficial extrafoveal avascular area, vessel density, and fractal dimension of the skeletonized deep capillary plexus had the highest diagnostic performance to differentiate mild nonproliferative DR from control eyes, with AUCs of 0.885, 0.876, and 0.876, respectively. CONCLUSION: Vessel density and fractal dimension from the skeletonized deep capillary network may be the most sensitive for detecting early retinal capillary loss in diabetes mellitus.