Secondary glaucoma in small versus large uveal melanoma patients treated with stereotactic radiosurgery on linear accelerator.

AIM: Secondary radiation-related side effects like secondary glaucoma (SG) of different modalities of treatment in uveal melanoma patients can appear in certain interval after therapy. This study describes the incidence of SG in patients after stereotactic radiosurgery (SRS). METHOD: The data of 230 patients treated by SRS were reviewed for SG. Group of 83 patients who were observed 5 years after treatment in one center with follow-up regularly at least 4 times per year were analyzed. RESULTS: In group of 83 patients with the median age 59 years, the median tumor volume at baseline was 0.41 cm3. The survival without SG after single dose SRS was 94 % in 1.5 year, 77 % in 2 years, 57 % in 3 years, 43 % in 3.5 years, and 18 % in 4.5 year after irradiation. In 6 patients (7.2 %) secondary enucleation was necessary due to SG. Both predictors (tumor volume and age of patient) at the time of SRS were not statistically significant by Cox proportional-hazards regression. CONCLUSIONS: Complications like SG in 5 year interval after irradiation can lead to secondary enucleation of the eye globe (Fig. 3, Ref. 44).

Ultrasonography and transillumination for uveal melanoma localisation in proton beam treatment planning.

BACKGROUND/OBJECTIVE: The success of proton beam treatment (PBT) in uveal melanoma depends in part on the accuracy of tumour localisation. This study determined if using ultrasonography (US) to measure the distance between tumour margin and tantalum ring (DTR) in PBT planning improves local treatment success when compared with using intraoperative transillumination (TI) alone. METHODS: Retrospective analysis of patients with uveal melanoma treated at one centre between January 2006 and June 2017 with ≥12-month follow-up (or until treatment failure). Local tumour control was compared among study groups based on methods for measuring DTR: Group 1 (TI alone), Group 2A (postoperative US alone) and Group 2B (combination). RESULTS: Fifty-four eyes (54 patients) with uveal melanomas were included: Group 1 (22 eyes, 41%), Group 2A (11 eyes, 20%) and Group 2B (21 eyes, 39%). Mean age at diagnosis was 64 years [median 66 years, range 23-86 years]. Fifty tumours (93%) involved the choroid, while four involved the ciliary body (7%). In Group 2B, PBT treatment was based on the DTR obtained using US; DTR differed between TI and US by ≥1 mm for 25 rings in 16 eyes and ≥2 mm for 12 rings in 7 eyes. Five-year Kaplan-Meier estimate revealed a difference in local treatment success between Groups 1 and 2, (0.82 vs. 1.0, p = 0.02) with no difference in overall survival estimate, (0.85 vs. 0.83, p = 0.8). CONCLUSIONS: US can be used to measure DTR in PBT planning for uveal melanoma. This may improve accuracy of tumour localisation and improve local treatment success.

[Stereotactic Rediosurgery for Uveal Melanoma; Postradiation Complications]. / Stereotaktická rádiochirurgia (LINAC) uveálnych melanómov; postradiacné komplikácie.

OBJECTIVE: The authors evaluate a group of patients with malignant uveal melanoma treated with stereotactic radiosurgery in the year. 2009-2011 on a linear accelerator LINAC. MATERIAL AND METHODS: In 2009-2011 were followed 40 patients with malignant melanoma of the uvea in stage T2 and T3 treated with stereotactic radiosurgery (LINAC), the therapeutic dose of 35,0 Gy TD, TD max 42,0 Gy. We evaluated the influence of factors (age, exposure risk structures, time) to intraocular pressure (IOP) and temporal changes in intraocular pressure after surgery between the control group and the group of patients who underwent enucleation. The normality of data distribution was tested Shapiro-Wilk W test and graphically. The relations between the parameters were tested using simple and multiple linear regression (correlation coefficient r, the significance level p). RESULTS: The mean age of the group of 40 patients with malignant melanoma of the uvea treated by one day session stereotactic radiosurgery on a linear accelerator in the year. 2009-2011 was 55.13±11.11 years. Average maximum radiation dose to sensitive structures has been the target of 12,0 Gy to the optic nerve and the ciliary 10,0 Gy. The analysis in our group confirmed that the prevalence of the tumor independent of sex, increasing with age, with most patients are diagnosed between 60 and 70 years of age. Analysis of the difference in intraocular pressure (IOP) before surgery showed no significant difference between the group of men and women (p=0.54). Using simple linear regression, we confirmed assumptions, related to IOP before stereotactic radiosurgery with age (r=-0.09, p=0.65). Multiple linear regression, we evaluated the relationship between predictors (dose at-risk structures--lens and optic nerve) and the change in IOP from the value before stereotactic radiosurgery at each time interval. Relations between predictors (Dose aperture--L, the dose of the optic nerve--O) and IOP of the file being described partial correlation coefficients after 2 weeks. For the relationship is significant correlation between the dose and the IOP in the lens at the time of 1 year, 1.5 years, and 2 years after the stereotactic radiosurgery. CONCLUSION: A single stereotactic radiosurgery on a linear accelerator LINAC is possible at a dose of 35,0 to 38,0 Gy in intraocular melanomas in stage T1 to T3. According to our results, this is a highly effective method of treatment of uveal melanomas elevation to 6 mm and a capacity of up to 0,4 cm3. Secondary glaucoma is one of the most serious causes of enucleation after one day session stereotactic radiosurgery at linear accelerator (LINAC) for uveal melanoma. The percentage of enucleation in our investigated group (17.5%) for secondary glaucoma is about the same as in other studies.

Comparison of eumelanin and pheomelanin content between cultured uveal melanoma cells and normal uveal melanocytes.

Levels of eumelanin (EM) and pheomelanin (PM) of uveal melanoma cells have not been measured and compared with those of normal uveal melanocytes. EM and PM amounts in four immortal human uveal melanoma cell lines were measured by chemical degradation and microanalytical high-performance liquid chromatography and compared with those from 39 normal human uveal melanocyte cell lines reported earlier by us. Uveal melanoma cells had a very low EM/PM ratio (0.41), which was very significantly lower than that from normal melanocytes isolated both from eyes with light-colored irides (1.31) or dark-colored irides (7.32). The low EM/PM ratio was caused by a low level of EM in melanoma cells, which was only 1/8 and 1/31 of that in melanocytes from eyes with light-colored irides and dark-colored irides, respectively. The PM level in uveal melanoma cells was not statistically different from normal melanocytes from eyes with light-colored irides or dark-colored irides. The total quantity of EM and PM in uveal melanoma cells was significantly less than that in normal melanocytes. This difference was because of the low level of EM in uveal melanoma cells. The results of these studies indicate that the changes of melanin content in uveal melanoma cells mainly relate to the decrease of EM content. Low melanin and EM content may make melanoma cells more susceptible to mutagenic effects of ultraviolet radiation and oxidative stress, which may enhance the proliferation of melanoma cells and accelerate progression of melanoma.

Intermittent and chronic ultraviolet light exposure and uveal melanoma: a meta-analysis.

OBJECTIVE: To examine the association between ultraviolet light exposure and uveal melanoma. DESIGN: Meta-analysis. METHODS: A review of 133 published reports on risk factors for uveal melanoma revealed 12 studies that provided sufficient information to calculate odds ratios (ORs) and standard errors for ultraviolet light exposure factors. Data from these studies were extracted and categorized into intermittent ultraviolet exposure factors (welding, outdoor leisure, photokeratitis) and chronic ultraviolet exposure factors (occupational sunlight exposure, birth latitude, lifetime ultraviolet exposure index). Summary statistics were calculated for all risk factors reported by > or =4 independent studies. MAIN EXPOSURE MEASURES: Welding, outdoor leisure, photokeratitis, occupational sunlight exposure, birth latitude, and lifetime ultraviolet exposure index. RESULTS: For intermittent ultraviolet exposure, welding was found to be a significant risk factor (5 studies, 1137 cases; OR, 2.05 [95% confidence interval [CI], 1.20-3.51]). Outdoor leisure was found to be nonsignificant (4 studies, 1332 cases; OR, 0.86 [95% CI, 0.71-1.04]). Photokeratitis conferred susceptibility in 3 reports studying this variable, but there were too few studies to validate meta-analyses. For chronic ultraviolet exposure, meta-analysis found occupational sunlight exposure to be a borderline nonsignificant risk factor for development of uveal melanoma (4 studies, 572 cases; OR, 1.37 [95% CI, 0.96-1.96]). Latitude of birth was found to be nonsignificant (5 studies, 1765 cases; OR, 1.08 [95% CI, 0.67-1.74]). CONCLUSION: This meta-analysis yielded inconsistent results associating ultraviolet light with development of uveal melanoma. There was evidence implicating welding as a possible risk factor for uveal melanoma.

Uveal melanoma: proton beam irradiation.

Over the past two decades, radiotherapy has replaced enucleation as the standard treatment for uveal melanoma. Although this method does not alter survival, preservation of the globe and, in some instances, visual function, is achieved. This article presents the authors' and other investigators' experience with proton therapy.

[The stimulating effect of helium-neon laser radiation on rabbit eyes]. / O stimuliruiushchem éffekte deistviia izlucheniia gelii-neonovogo lazera na glaza krolika.

Local and general reactions have been studied after subjecting a rabbit eye to dispersed helium-neon laser radiation, 8 x 10(-6) wt/cm-2, 10 min daily for 10 days. There were recorded increase of blood filling of the uveal tract of the eye, changes in the indices of systemic hemodynamics, systolic and diastolic pressure, stroke and minute volume of blood volume, activation of separate links of antioxidant system connected both with oxidation-reduction of thiol disulfide system and the functioning of antiperoxide enzymes. The activation of antioxidant system has a local character, the changes in the retina of the eye and pigmented epithelium is expressed stronger than in the peripheral blood. The results obtained speak about relationship between the stimulating effect of helium-neon laser radiation on the rabbit eye and activation of antioxidant system.

[Radiation pathomorphosis of malignant melanoma of the uveal tract of the human eye]. / Luchevoi patomorfoz zlokachestvennykh melanom uveal'nogo trakta glaza cheloveka.

The paper describes peculiarities of changes in uveal melanomas after beta application. It is shown that the degree of changes depends on the intensity of action, the cellular type of the tumor and the degree of its pigmentation. The most radiosensitive proved to be spindle cell B, mixed and epithelioid melanomas. Less radiosensitive are pigmented tumourous cells. The most intensive postradiation changes, were characterized by development of long-term existence of coagulation necrosis, growing of cellular polymorphism, hyperploidy, polynucleosis, appearance of apoptosis. The study of the reaction of monolayer culture of uveal melanomas on beta application has confirmed different radiosensitivity of melanoma cells of a different kind as well as has revealed that the growing of cellular polymorphism is a morphologic manifestation of a postradiation degeneration. The degree of postradiation changes correlated with the duration of monolayer culture of the tumor.