View clinical trials related to Melanoma.
Filter by:This is a pilot study to describe the immunological responses and clinical outcome associated with administration of recombinant human Granulocyte Macrophage Colony Stimulating Factor (GM-CSF) as surgical adjuvant therapy in patients with malignant melanoma who are at high risk for recurrence (Stage II T4, III and IV).
This phase I trial is studying the side effects and best dose of temsirolimus when given together with sorafenib and to see how well they work in treating patients with metastatic, recurrent, or unresectable melanoma. Sorafenib and temsirolimus may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Sorafenib may also stop the growth of tumor cells by blocking blood flow to the tumor. Giving sorafenib together with temosirolimus may kill more tumor cells.
The purpose of this study is to measure the level of a specific protein, CXCL1, in the blood of patients with untreated, metastatic (Stage IV) melanoma. These levels will be compared to blood levels in normal controls. If the levels are elevated in metastatic melanoma, further studies to determine if this correlates with presence and extent of disease will be pursued.
RATIONALE: Studying the genes expressed in samples of blood from patients with cancer and their family members may help doctors identify biomarkers related to cancer. PURPOSE: This clinical trial is studying genes to identify melanoma in patients in Iceland and their family members.
Patients who are diagnosed with choroidal melanoma and undergo I-125 plaque or enucleation surgery consent to participate in the study. A tumor sample taken during surgery is studied in the lab for genetic features. These features and features of subjects' clinical course are recorded. Analysis of the data may identify genetic features that are indicative of prognostic factors including risk of metastasis.
Retinoblastoma is a rare pediatric ocular tumor caused by germline and/or somatic mutations in the tumor suppressor gene RB1. Survivors of retinoblastoma, particularly those with the hereditary form of the disease (germline RB1 mutations) are highly susceptible to developing additional malignancies, which are a major cause of morbidity and mortality. Since 1984, REB has followed a cohort of 2136 (including 1,995 one-year) retinoblastoma survivors to investigate the contributions of treatment and genetic risk factors to second cancer etiology. The last systematic follow-up for second cancer incidence and cause-specific mortality was completed in 2009. As the cohort ages, we now propose to conduct another interview survey to collect information on newly diagnosed second cancers. Additionally, we propose to expand collection of germline DNA for additional molecular studies in survivors. Retinoblastoma survivors have now entered adult ages when epithelial tumors would be expected to occur with greater frequency. Given that the somatic mutations in the RB1 pathway have been identified in several epithelial tumors (bladder, brain, breast, esophagus, liver, lung, prostate) in addition to sarcomas, it is important to collect new information on these epithelial tumors, and to investigate whether the previously identified high risks of sarcomas and melanoma will persist as the cohort ages. Additionally, our understanding of genetic susceptibility to second cancers is limited. Given that this is the only cohort of long-term survivors of retinoblastoma being followed in the U.S., combined with the leadership role of REB in the study of second cancers, continued follow-up of this cohort will provide unique clinical and epidemiologic data on the long-term cumulative risk of second cancers in this distinctive cohort of childhood cancer survivors.
Flight attendants may be at an increased risk of breast and other cancers due to work-place exposures including cosmic radiation and circadian rhythm disruption form traveling across multiple time zones. This cancer incidence study will determine whether female flight attendants are at increased risk of breast and other cancers and whether the risk is dose-related. The study will include a cohort of approximately 10,000 women who were employed as flight attendants for one or more years. Breast cancer cases will be identified from telephone interviews of living subjects and next-of-kin of deceased subjects, as well as from death certificates. The interview will also provide information about non-occupational risk factors for breast cancer such as parity. Both internal and external comparisons will be made. The primary analysis will evaluate the risk associated with occupational exposure within the cohort, controlling for non-occupational risk factors by stratification or modeling. The secondary analysis will compare the incidence of breast cancer in the cohort to that in the general population, with adjustment for factors such as lower parity which might increase breast cancer risk in the cohort independent of occupational exposure to cosmic radiation and circadian rhythm disruption. The risk of other ionizing radiation-related cancers, such as leukemia, lung cancer, and thyroid cancer, among flight attendants will also be evaluated. The results of the study will apply to female flight crew and frequent fliers.
This case-control study was planned to investigate the link of solar radiation with gene damage, host factors, and DNA repair proficiency in cutaneous malignant melanoma (CMM) risk. The hypothesis was that impaired DNA repair proficiency is associated with an increased risk of CMM due to unrepaired DNA damage, particularly in subjects with dysplastic nevi, poor tanning ability or genetic susceptibility. The study was reviewed as an RO1 Grant from the National Cancer Institute in 1995. Subject enrollment, which included clinical evaluation, epidemiologic questionnaires, and skin and blood sample collection, was completed in 1999 on approximately 180 melanoma cases and 180 controls identified in Italy. The study protocol and consent form both included the measurement of genetic and biochemical factors and DNA repair capacity. DNA repair proficiency was measured in lymphocytes by the host cell reactivation assay, and sun exposure was evaluated by means of a detailed questionaire. Photographs of the back of the subjects were taken to allow nevi count. Minimal erythemal dosage was measured in all subjects to estimate skin sun sensitivity 24 hours after skin's UV-irradiation. Skin color was ascertained on the inner side of the forearm by means of a Minolta chromometer. The aim of this protocol is to continue analysis of the biological samples already collected, as originally outlined in the study protocol. In particular, we plan to measure polymorphisms in genes that may lead to susceptibility to melanoma. Initially we will concentrate on variation in genes involved in repairing damaged DNA, but plan to look at a broad group of candidate susceptibility genes.
This study is a retrospective one, exploring the hypothesis that a person's genotypic makeup may be associated with a clinical response or toxic effect to a drug. Genetic polymorphisms, that is, states of being able to assume different forms, that are in drug-metabolizing enzymes, transporters, and receptors may affect a patient's response to drug therapy. To date, there have been limited studies looking at a drug-metabolizing genotype (genetic makeup) or phenotype (result of the genotype's interaction with the environment). However, it is often wondered if the variations in a drug's action, that is, pharmacokinetic effect, come from the genotype phenotype relationship. Participants who entered previous clinical trials at the National Cancer Institute, as approved by the Central Institutional Review Board, may be eligible for this study. Studies for which pharmacokinetic analyses were or are being performed will be the source of the patient population. Genotyping experiments will be performed through genomic DNA isolated from stored frozen serum. The genotyping results will be compared with pharmacokinetic data and clinical outcomes. Clinical data will consist of what is obtained during the course of the principal pharmacokinetic study. The results of the retrospective analyses will provide no direct benefit to the participants.
In collaboration with members of The International Melanoma Consortium, we propose to study melanoma in families lacking mutations in the cyclin-dependent kinase inhibitor 2 (CDKN2 or p16) gene, or the cyclin-dependant kinase 4 (CDK4). CDKN2 and CDK4 are both genes that encode presumed tumor suppressor genes, mutant forms of which are known to cause increased susceptibility to melanoma. The purpose of the present study then is to confirm the existence of and to identify additional gene(s) involved in heritable melanoma (cutaneous and ocular) and their precursor lesions (atypical nevi) by linkage analysis and gene mapping strategies. It is clear that the risk to develop atypical nevi and/or melanoma is strongly influenced by genetic and environmental factors (e.g. sun exposure). Characterization of such genes could provide important insights into the inheritance, pathogenesis, and treatment of this increasingly important disease.