Good long-term visual outcomes of parapapillary choroidal melanoma patients treated with proton therapy: a comparative study.

PURPOSE: To evaluate why small- and certain medium-sized parapapillary choroidal melanoma (pcM) patients treated with hypo-fractionated proton therapy (PT) retain excellent long-term visual acuity (VA) and assess the negative predictive factors for retaining good vision (≤ 0.2 logMAR (≥ 0.6 decimal) after 5 years. METHODS: This single-center, retrospective, comparative study recruited consecutive pcM patients that were treated with PT. Between 1984 and 2005, 609 patients received a total of 60 CGE, of whom 310 met the following inclusion criteria: posterior tumor border ≤ 2.5 mm from the optic disc, largest tumor diameter ≤ 17.9 mm, tumor thickness ≤ 5.2 mm and available follow-up data for at least 5 years. RESULTS: Mean follow-up was 120.8 ± 48.8 months (54.0-295.0). Out of 310 patients, 64 (21%) maintained a VA ≤ 0.2 logMAR (≥ 0.6 decimal) for at least 5 years following PT and were allocated to the "good visual outcome" (GVO) group, while the remaining 246 (79%) constituted the "poor visual outcome" (PVO) group, subdivided into 70 (22%) with a VA of 0.3-1.0 logMAR (0.1-0.5 decimal) and 157 (57%) patients with a VA > 1.0 logMAR (< 0.1 decimal). On multivariate analysis, older age (P = 0.04), tumor localization ≤ 0.5 mm to the fovea (P < 0.03), volume of the optic disc and macula receiving 50% of dose (30 CGE) (P = 0.02 and P < 0.001, respectively) were independent negative predictors of GVO. CONCLUSIONS: Of 310 small- to medium-sized pcM patients successfully treated with PT, 21% retained a VA ≤ 0.2 logMAR (≥ 0.6 decimal) for at least 5 years. Strongest negative predictive factor for retaining good long-term vision was the volume of the macula irradiated with at least 30 Gy.

Comprehensive Genetic Landscape of Uveal Melanoma by Whole-Genome Sequencing.

Uveal melanoma (UM) is a rare intraocular tumor that, similar to cutaneous melanoma, originates from melanocytes. To gain insights into its genetics, we performed whole-genome sequencing at very deep coverage of tumor-control pairs in 33 samples (24 primary and 9 metastases). Genome-wide, the number of coding mutations was rather low (only 17 variants per tumor on average; range 7-28), thus radically different from cutaneous melanoma, where hundreds of exonic DNA insults are usually detected. Furthermore, no UV light-induced mutational signature was identified. Recurrent coding mutations were found in the known UM drivers GNAQ, GNA11, BAP1, EIF1AX, and SF3B1. Other genes, i.e., TP53BP1, CSMD1, TTC28, DLK2, and KTN1, were also found to harbor somatic mutations in more than one individual, possibly indicating a previously undescribed association with UM pathogenesis. De novo assembly of unmatched reads from non-coding DNA revealed peculiar copy-number variations defining specific UM subtypes, which in turn could be associated with metastatic transformation. Mutational-driven comparison with other tumor types showed that UM is very similar to pediatric tumors, characterized by very few somatic insults and, possibly, important epigenetic changes. Through the analysis of whole-genome sequencing data, our findings shed new light on the molecular genetics of uveal melanoma, delineating it as an atypical tumor of the adult for which somatic events other than mutations in exonic DNA shape its genetic landscape and define its metastatic potential.