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Incidence and Mortality
Melanoma of the uveal tract (iris, ciliary body, and choroid), though rare, is the most common primary intraocular malignancy in adults. The mean age-adjusted incidence of uveal melanoma in the United States is approximately 4.3 new cases per million people, with no clear variation by latitude. Men have a higher incidence at 4.9 cases per million than do women at 3.7 cases per million.[
Uveal melanoma is diagnosed mostly at older ages, with a progressively rising, age-specific incidence rate that peaks near age 70 years.[
Host susceptibility factors associated with the development of this cancer include the following:[
In view of these susceptibility factors, numerous observational studies have attempted to explore the relationship between sunlight exposure and risk of uveal melanoma. To date, these studies have found only weak associations or yielded contradictory results.[
Anatomical Location
Uveal melanomas can arise in the anterior (iris) or the posterior (ciliary body or choroid) uveal tract.[
Most uveal melanomas are initially completely asymptomatic. As the tumor enlarges, it may cause distortion of the pupil (iris melanoma), blurred vision (ciliary body melanoma), or markedly decreased visual acuity caused by secondary retinal detachment (choroidal melanoma). Serous detachment of the retina may occur. If extensive detachment occurs, secondary angle-closure glaucoma occasionally develops. Clinically, several lesions simulate uveal melanoma, including metastatic carcinoma, posterior scleritis, and benign tumors, such as nevi and hemangiomas.[
Anatomy of the eye.
Diagnosis
Careful examination by an experienced clinician remains the most important test to diagnose intraocular melanoma. A small uveal melanoma cannot be distinguished from a nevus. Small uveal lesions are observed for growth before making a diagnosis of melanoma. Clinical findings that may help to identify melanoma include the following:[
Ancillary diagnostic testing, including fluorescein angiography and ultrasonography, can be extremely valuable in establishing and confirming the diagnosis.[
Prognostic Factors
A number of factors influence prognosis. The most important factors include the following:
Several additional microscopic features can affect the prognosis of intraocular melanoma, including the following:
Cell type is the most commonly used predictor of outcome following enucleation, with spindle-A cell melanomas carrying the best prognosis and epithelioid cell melanomas carrying the least favorable prognosis.[
Extraocular extension, recurrence, and metastasis are associated with an extremely poor prognosis, and long-term survival cannot be expected.[
References:
Primary intraocular melanomas originate from melanocytes in the uveal tract.[
Most primary intraocular melanomas contain variable proportions of epithelioid, spindle-A, and spindle-B cells (mixed-cell melanomas). Pure epithelioid-cell primary melanomas are infrequent (approximately 3% of cases).[
References:
Tumor Size
Uveal melanoma most often assumes a nodular or dome-shaped configuration, but occasionally tumors can be flat or diffuse and involve extensive areas of the uvea with little elevation.
Tumor size classifications according to boundary lines used in a Collaborative Ocular Melanoma Study (COMS) are as follows:[
Although most ocular melanomas have a raised configuration, about 5% grow in a diffuse pattern that also may have prognostic significance. The tumors have a horizontal, flat-growth pattern, with the thickness measuring approximately 20% or less than the greatest basal dimension. This uncommon variant of uveal melanoma seems to have a poorer prognosis, particularly when the diameter is large and the margins are poorly defined.[
In clinical practice, the tumor base may be estimated in average optic disc diameters (1 dd = 1.5 mm). The average elevation may be estimated in diopters (3 diopters = 1 mm). Other techniques, such as ultrasonography, should be used to provide more accurate measurements.
An important function of ophthalmic ultrasonography is the detection of extrascleral extension.[
Metastatic Disease
Systemic metastases are evident in only 2% to 3% of patients at the time of diagnosis of the primary ocular melanoma.[
Systemic metastases are generally hematogenous in origin, and the first site identified is usually the liver.[
It is particularly unusual for choroidal melanomas of any size to invade the optic nerve or its meninges.[
Staging
American Joint Committee on Cancer (AJCC) stage groupings and definitions of TNM
The AJCC has designated staging by TNM (tumor, node, metastasis) classification to define melanoma of the uveal tract.[
As in the seventh edition of the AJCC Cancer Staging Manual, there is no staging system for iris melanomas in the eighth edition. However, TNM should still be recorded for this site and histology combination.
T Category | T Criteria |
---|---|
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | |
b Iris melanomas originate from, and are predominantly located in, this region of the uvea. If less than half the tumor volume is located within the iris, the tumor may have originated in the ciliary body, and consideration should be given to classifying it accordingly. | |
TX | Primary tumor cannot be assessed. |
T0 | No evidence of primary tumor. |
T1 | Tumor limited to the iris. |
–T1a | Tumor limited to the iris, not more than 3 clock hours in size. |
–T1b | Tumor limited to the iris, more than 3 clock hours in size. |
–T1c | Tumor limited to the iris with secondary glaucoma. |
T2 | Tumor confluent with or extending into the ciliary body, choroid, or both. |
–T2a | Tumor confluent with or extending into the ciliary body, without secondary glaucoma. |
–T2b | Tumor confluent with or extending into the ciliary body and choroid, without secondary glaucoma. |
–T2c | Tumor confluent with or extending into the ciliary body, choroid, or both, with secondary glaucoma. |
T3 | Tumor confluent with or extending into the ciliary body, choroid, or both, with scleral extension. |
T4 | Tumor with extrascleral extension. |
–T4a | Tumor with extrascleral extension ≤5 mm in largest diameter. |
–T4b | Tumor with extrascleral extension >5 mm in largest diameter. |
N Category | N Criteria |
---|---|
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | |
NX | Regional lymph nodes cannot be assessed. |
N0 | No regional lymph node involvement. |
N1 | Regional lymph node metastases or discrete tumor deposits in the orbit. |
–N1a | Metastasis in one or more regional lymph node(s). |
–N1b | No regional lymph nodes are positive, but there are discrete tumor deposits in the orbit that are not contiguous to the eye (choroidal and ciliary body). |
M Category | M Criteria |
---|---|
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | |
M0 | No distant metastasis by clinical classification. |
M1 | Distant metastasis. |
–M1a | Largest diameter of the largest metastasis ≤3.0 cm. |
–M1b | Largest diameter of the largest metastasis 3.1–8.0 cm. |
–M1c | Largest diameter of the largest metastasis ≥8.1 cm. |
Category | Tumor Size |
---|---|
a Adapted from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | |
1 | Tumor is ≤12 mm in diameter and ≤3 mm in thickness;or |
Tumor is ≤9 mm in diameter and 3.1–6 mm in thickness. | |
2 | Tumor is 12.1–18 mm in diameter and ≤3 mm in thickness;or |
Tumor is 9.1–15 mm in diameter and 3.1– 6 mm in thickness;or | |
Tumor is ≤12 mm in diameter and 6.1–9 mm in thickness. | |
3 | Tumor is 15.1–18 mm in diameter and 3.1–6 mm in thickness;or |
Tumor is 12.1–18 mm in diameter and 6.1–9 mm in thickness;or | |
Tumor is ≤18 mm in diameter and 9.1–12 mm in thickness;or | |
Tumor is ≤15 mm in diameter and 12.1–15 mm in thickness. | |
4 | Tumor is >18 mm in diameter and may be any thickness;or |
Tumor is 15.1–18 mm in diameter and >12 mm in thickness;or | |
Tumor is ≤15 mm in diameter and >15 mm in thickness. |
Stage | TNM | Description |
---|---|---|
M = distant metastasis; N = regional lymph node; T = primary tumor. | ||
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | ||
b 1) Primary ciliary body and choroidal melanomas are classified according to four tumor-size categories based on thickness and diameter. See Table 4. 2) In clinical practice, the largest tumor basal diameter may be estimated in optic disc diameters (DD) (average: 1 DD = 1.5 mm), and tumor thickness may be estimated in diopters (average: 2.5 diopters = 1 mm). Ultrasonography and fundus photography are used to provide more accurate measurements. 3) When histopathological measurements are recorded after fixation, tumor diameter and thickness may be underestimated because of tissue shrinkage. | ||
I | T1a, N0, M0 | –T1a = Tumor size category 1 without ciliary body involvement and extraocular extension. |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. |
Stage | TNM | Description |
---|---|---|
T = primary tumor; N = regional lymph node; M = distant metastasis. | ||
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | ||
b 1) Primary ciliary body and choroidal melanomas are classified according to four tumor-size categories based on thickness and diameter. See Table 4. 2) In clinical practice, the largest tumor basal diameter may be estimated in optic disc diameters (DD) (average: 1 DD = 1.5 mm), and tumor thickness may be estimated in diopters (average: 2.5 diopters = 1 mm). Ultrasonography and fundus photography are used to provide more accurate measurements. 3) When histopathological measurements are recorded after fixation, tumor diameter and thickness may be underestimated because of tissue shrinkage. | ||
IIA | T1b–d, N0, M0 | –T1b = Tumor size category 1 with ciliary body involvement. |
–T1c = Tumor size category 1 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
–T1d = Tumor size category 1 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
T2a, N0, M0 | –T2a = Tumor size category 2 without ciliary body involvement and extraocular extension. | |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
IIB | T2b, N0, M0 | –T2b = Tumor size category 2 with ciliary body involvement. |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
T3a, N0, M0 | –T3a = Tumor size category 3 without ciliary body involvement and extraocular extension. | |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. |
Stage | TNM | Description |
---|---|---|
T = primary tumor; N = regional lymph node; M = distant metastasis. | ||
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | ||
b 1) Primary ciliary body and choroidal melanomas are classified according to four tumor-size categories based on thickness and diameter. See Table 4. 2) In clinical practice, the largest tumor basal diameter may be estimated in optic disc diameters (DD) (average: 1 DD = 1.5 mm), and tumor thickness may be estimated in diopters (average: 2.5 diopters = 1 mm). Ultrasonography and fundus photography are used to provide more accurate measurements. 3) When histopathological measurements are recorded after fixation, tumor diameter and thickness may be underestimated because of tissue shrinkage. | ||
IIIA | T2c–d, N0, M0 | –T2c = Tumor size category 2 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. |
–T2d = Tumor size category 2 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
T3b–c, N0, M0 | –T3b = Tumor size category 3 with ciliary body involvement. | |
–T3c = Tumor size category 3 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
T4a, N0, M0 | –T4a = Tumor size category 4 without ciliary body involvement and extraocular extension. | |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
IIIB | T3d, N0, M0 | –T3d = Tumor size category 3 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. |
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
T4b–c, N0, M0 | –T4b = Tumor size category 4 with ciliary body involvement. | |
–T4c = Tumor size category 4 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. | ||
IIIC | T4d–e, N0, M0 | –T4d = Tumor size category 4 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. |
–T4e = Any tumor size category with extraocular extension >5 mm in largest diameter. | ||
N0 = No regional lymph node involvement. | ||
M0 = No distant metastasis by clinical classification. |
Stage | TNM | Description |
---|---|---|
T = primary tumor; N = regional lymph node; M = distant metastasis. | ||
a Reprinted with permission from AJCC: Uveal melanoma. In: Amin MB, Edge SB, Greene FL, et al., eds.:AJCC Cancer Staging Manual. 8th ed. New York, NY: Springer, 2017, pp 805–17. | ||
b 1) Primary ciliary body and choroidal melanomas are classified according to four tumor-size categories based on thickness and diameter. See Table 4. 2) In clinical practice, the largest tumor basal diameter may be estimated in optic disc diameters (DD) (average: 1 DD = 1.5 mm), and tumor thickness may be estimated in diopters (average: 2.5 diopters = 1 mm). Ultrasonography and fundus photography are used to provide more accurate measurements. 3) When histopathological measurements are recorded after fixation, tumor diameter and thickness may be underestimated because of tissue shrinkage. | ||
IV | Any T, N1, M0 | TX = Primary tumor cannot be assessed. |
T0 = No evidence of primary tumor. | ||
T1 = Tumor size category 1. | ||
–T1a = Tumor size category 1 without ciliary body involvement and extraocular extension. | ||
–T1b = Tumor size category 1 with ciliary body involvement. | ||
–T1c = Tumor size category 1 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
–T1d = Tumor size category 1 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
T2 = Tumor size category 2. | ||
–T2a = Tumor size category 2 without ciliary body involvement and extraocular extension. | ||
–T2b = Tumor size category 2 with ciliary body involvement. | ||
–T2c = Tumor size category 2 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
–T2d = Tumor size category 2 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
T3 = Tumor size category 3. | ||
–T3a = Tumor size category 3 without ciliary body involvement and extraocular extension. | ||
–T3b = Tumor size category 3 with ciliary body involvement. | ||
–T3c = Tumor size category 3 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
–T3d = Tumor size category 3 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
T4 = Tumor size category 4. | ||
–T4a = Tumor size category 4 without ciliary body involvement and extraocular extension. | ||
–T4b = Tumor size category 4 with ciliary body involvement. | ||
–T4c = Tumor size category 4 without ciliary body involvement but with extraocular extension ≤5 mm in largest diameter. | ||
–T4d = Tumor size category 4 with ciliary body involvement and extraocular extension ≤5 mm in largest diameter. | ||
–T4e = Any tumor size category with extraocular extension >5 mm in largest diameter. | ||
N1 = Regional lymph node metastases or discrete tumor deposits in the orbit. | ||
–N1a = Metastasis in one or more regional lymph nodes(s). | ||
–N1b = No regional lymph nodes are positive, but there are discrete tumor deposits in the orbit that are not contiguous to the eye. | ||
M0 = No distant metastasis by clinical classification. | ||
Any T, Any N, M1a–c | Any T = See descriptions above in this table, stage IV, Any T, N1, M0. | |
NX = Regional lymph nodes cannot be assessed. | ||
N0 = No regional lymph node involvement. | ||
N1 = Regional lymph node metastases or discrete tumor deposits in the orbit. | ||
–N1a = Metastasis in one or more regional lymph node(s). | ||
–N1b = No regional lymph nodes are positive, but there are discrete tumor deposits in the orbit that are not contiguous to the eye (choroidal and ciliary body). | ||
M1 = Distant metastasis. | ||
–M1a = Largest diameter of the largest metastasis ≤3.0 cm. | ||
–M1b = Largest diameter of the largest metastasis 3.1–8.0 cm. | ||
–M1c = Largest diameter of the largest metastasis ≥8.1 cm. |
Prognostic features
There are a number of key prognostic features that are important to collect in malignant melanoma of the uvea, even though they are not included in staging algorithms. These include the following:[
Molecular features
Indicate:
Indicate:
Clinical and histopathological features
The patterns are assessed with light microscopy under a dark green filter after staining with periodic-acid Schiff without counterstain.
The number can be compared with standard photographs.[
References:
Role of Observation
Iris melanomas have relatively good outcomes, with a 5-year survival rate of more than 95%. They are predominantly of the spindle-cell type and are usually smaller in size than posterior melanomas because they are detected earlier. Conservative management is generally advocated whenever possible, but surgical intervention may be justified with unequivocal tumor growth or with extensive disease at initial examination.
The management of small choroidal melanomas is controversial, and it is not clear whether treatment of small tumors prevents metastasis.[
Although patients diagnosed with small choroidal tumors were not eligible for participation in the Collaborative Ocular Melanoma Study (COMS), these patients were offered participation in a prospective follow-up study to evaluate the natural history of small lesions. Two-year tumor growth estimates of 21% and 5-year tumor growth estimates of 31% were reported.[
Role of Surgery
The selection of treatment depends on the following:
Enucleation
In the past, enucleation (eye removal) was the standard treatment for primary choroidal melanoma, and it is still used when large tumors are present. However, enucleation has been largely replaced by radiation therapy (i.e., brachytherapy with radioactive plaques or external-beam, charged-particle radiation therapy) to spare the affected eye.[
Pre-enucleation external-beam radiation therapy (EBRT)
In the case of large, choroidal tumors judged to require enucleation, the role of pre-enucleation EBRT was tested in a randomized trial and had no impact on overall survival (OS).[
Transscleral local resection
Eye-sparing transscleral local resection plays a limited role in the management of uveal melanoma. It is used in patients with large choroidal and ciliary body tumors who are not candidates for radiation therapy but are highly motivated to retain their eye.[
Surgical resection of metastases
Surgical resection of metastases from ocular melanoma has been reported in case series of highly selected patients with occasional favorable outcomes.[
Role of Radiation Therapy
Episcleral brachytherapy using plaques containing small radioactive seeds is the most common form of radiation used in the management of intraocular melanoma. Iodine I 125 (125I), cobalt Co 60 (60Co), palladium Pd 103 (103Pd), iridium Ir 192 (192Ir), and ruthenium Ru 106 (106Ru) are examples of radioactive isotopes used in the brachytherapy plaques. Isotopes with relatively low photon and electron emissions (125I, 103Pd, and 106Ru) are more easily shielded to reduce the exposure to adjacent normal tissues, and 125I is probably the most commonly used radioisotope.[
In a case series of 1,106 patients who were treated with plaque radiation therapy for uveal melanoma and who had an initial acuity of at least 20/100, 68% developed poor acuity (i.e., 20/200 or worse) within 10 years.[
Factors associated with worse acuity outcomes included the following:[
125I brachytherapy yields equivalent overall and melanoma metastasis-specific survival rates to enucleation for medium-sized melanomas.[
In a companion study within the COMS, 209 patients were prospectively assessed for quality of life during the first 5 years of follow-up.[
Charged-particle EBRT (using protons, carbon ions, or helium ions) is the other major form of radiation therapy used in the management of ocular melanomas.[
In a single-center, single-surgeon study, 184 patients with uveal melanomas smaller than 15 mm in diameter and smaller than 10 mm in thickness were randomly assigned to receive 125I brachytherapy versus helium ion radiation (to an estimated dose of 70 Gy equivalents in 5 fractions over 7 to 11 days in each arm).[
Because of its dose distribution, charged-particle irradiation can be better used than plaque brachytherapy to treat larger tumors and tumors closer to the fovea or optic disc. A large, single-center, single-surgeon series of 2,069 patients treated with proton-beam therapy had an actuarial local control rate of 95% (95% CI, 93%–96%) at 15 years. The cumulative rate of enucleation was 16% (95% CI, 13%–20%), and most frequently the result of neovascular glaucoma representing 46% of enucleations, blind uncomfortable eyes or 31% of enucleations, or local recurrence in 23% of enucleations. As with plaque radiation, risk factors for deterioration in visual acuity after charged-particle radiation were tumor size, location near the fovea or optic disc, baseline acuity, and underlying diabetes.[
Similarly, another large, single-center, single-surgeon, consecutive series of 886 patients treated with proton-beam irradiation reported a local control rate of 92.1% (95% CI, 89.8%–94.6%) and ocular conservation rate of 87.3% (95% CI, 83.9%–90.9%) at 10 years.[
In a single-center, phase I/II study of 57 evaluable patients treated with carbon ion-beam irradiation and followed for a median of 26 months, 26 patients developed neovascular glaucoma or severe eye pain from increased intraocular pressure, and 3 patients had enucleation. One patient had a local tumor recurrence.[
In an attempt to lower the complication rate and improve functional outcome, a decreased dose of 50 cobalt Gy equivalents (CGE) has been compared with 70 CGE proton beam (each delivered in 5 fractions, usually within a 7-day period). Patients (n = 188) with tumors smaller than 15 mm in diameter and smaller than 5 mm in height, which were located near the optic disc or macula, were randomly assigned to the two doses in a double-masked study design. At 5 years, there were no statistically significant differences in local tumor control, rate of metastasis, visual acuity, or complication rates. However, the visual fields were better in the 50-CGE group.[
As noted above in the Role of Surgery section, the role of pre-enucleation external photon-beam radiation therapy has been tested in a randomized trial and has shown no impact on OS for large choroidal tumors treated with enucleation.[
External-beam–photon-beam (gamma-ray) radiation therapy with gamma-knife stereotactic radiation surgery as a single-fraction [
Role of Transpupillary Thermotherapy
Transpupillary thermotherapy (TTT) directs an infrared laser, usually at a wavelength of 810 nm, through a dilated pupil in one or more sessions to induce heat necrosis of uveal melanomas. This method carries the theoretical advantage of high-precision destruction of tumor tissue under direct visualization. However, TTT has important limitations that confine its use to specific circumstances.[
In a single-center study, 95 patients with small choroidal melanomas (diameter <10 mm and thickness <3.5 mm) were randomly assigned to TTT versus 125I brachytherapy (100 Gy).[
TTT is also under evaluation as an adjunct to primary therapy with proton-beam radiation. In the setting of large uveal melanomas, proton-beam therapy is associated with exudative, inflammatory, and glaucomatous complications that may require enucleation. In a single-center trial, 151 patients with uveal melanomas at least 7 mm thick or at least 15 mm in diameter were randomly assigned to receive proton-beam radiation (60 CGEs over four daily fractions) with or without TTT (810 nm wavelength at 1, 6, and 12 months after therapy) and followed for a median of 38 months.[
There are uncertainties at all stages about the optimal management of intraocular melanoma. Physicians should discuss clinical trial opportunities with eligible patients. Information about ongoing clinical trials is available from the
References:
Melanocytic stromal proliferations and nevi of the iris are the most common tumors of the iris, but melanoma is rare.[
Routine evaluation of iris melanomas includes gonioscopy, transillumination of the globe, and indirect ophthalmoscopy with 360° of scleral depression. Photographic documentation is essential to document progression in size or growth of the tumor.[
In general, iris melanomas have relatively good outcomes. Only about 3% of these melanomas metastasize within 5 years.[
Given the rarity of iris melanomas and their good prognosis, clinical trials with sufficient power are impractical. Therefore, treatment experience is based principally on case series and case reports. Conservative management is generally advocated whenever possible, but surgical intervention may be justified with unequivocal tumor growth or extensive disease at initial examination.
Treatment Options for Iris Melanoma
Treatment options for iris melanoma include the following:
Current Clinical Trials
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References:
Melanoma involving the ciliary body is a rare tumor that carries a poor prognosis. In some cases, diagnosis may be difficult because of similarity to other eye diseases. The differential diagnosis of ciliary body melanoma is considered in cases of unilateral pigmentary glaucoma and chronic uveitis.[
Ultrasound biomicroscopy can be used to evaluate tumor shape, thickness, margins, reflectivity, and local invasion.[
Treatment Options for Ciliary Body Melanoma
There are several options for management of ciliary body melanoma. All of them are reported from case series.[Level of evidence C3] The choice of therapy, however, depends on many factors.
Treatment options for ciliary body melanoma include the following:
Current Clinical Trials
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References:
A wide range of 5-year mortality rates has been reported among patients treated for small choroidal melanomas, with an average rate of about 16%.[
The management of small choroidal melanomas is controversial. The likelihood of progression from the time of diagnosis to growth warranting treatment has not been well characterized. Many ophthalmologists advocate initial observation. This initial management strategy is justified on several grounds, including difficulty in establishing a correct diagnosis, lack of documented efficacy for globe-conserving treatments, and concerns for severe treatment-related morbidity. Others have advocated earlier therapeutic intervention.[
Treatment Options for Small Choroidal Melanoma
Treatment options for small choroidal melanoma include the following:
Current Clinical Trials
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References:
Eye-sparing radiation therapy, either by plaque brachytherapy or external beam, is the preferred option for most patients with medium-sized choroidal melanoma. Enucleation remains the standard therapy for large choroidal melanomas and melanomas that cause severe glaucoma or invade the optic nerve.
Treatment Options for Medium and Large Choroidal Melanoma
Tumor growth pattern is a factor in the therapeutic decision. If there is a diffuse melanoma or extraocular extension, enucleation is considered, but radiation therapy can be employed for less extensive disease.
Treatment options for medium and large choroidal melanoma include the following:
Medium-sized choroidal melanomas
Large choroidal melanomas
Current Clinical Trials
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References:
Extrascleral extension confers a poor prognosis. For patients with gross tumor involvement of the orbit, treatment requires orbital exenteration. However, there is no evidence that such radical surgery will prolong life. Most patients with localized or encapsulated extraocular extension are not exenterated. This subject is controversial.[
No effective method of systemic treatment has been identified for patients with metastatic ocular melanoma. Clinical trials are an option for these patients.
Current Clinical Trials
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References:
The prognosis for any patient with recurring or relapsing disease is poor, regardless of cell type or stage. The question and selection of further treatment depends on many factors, including the extent of the lesion, age and health of the patient, prior treatment, site of recurrence, and individual patient considerations. Surgical resection of metastases diagnosed subsequent to initial management of ocular melanoma in single-center case series of highly selected patients has been reported. The extent to which the occasional favorable outcomes are the result of strong selection factors is not clear, so this approach cannot be considered standard.[
Eligible patients should be advised to consider participation in clinical trials whenever possible.
Current Clinical Trials
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References:
The PDQ cancer information summaries are reviewed regularly and updated as new information becomes available. This section describes the latest changes made to this summary as of the date above.
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