View clinical trials related to Skin Cancer.
Filter by:The main purpose of this study is to determine the maximum tolerated dose (MTD) and recommended phase II dose (RP2D) of XL888 when administered orally with vemurafenib plus cobimetinib in participants with BRAF V600 mutated melanoma and to evaluate the safety and tolerability of this combination.
It's known that organ transplant recipients with long-term drug-induced immunosuppression have a increase of the life-time incidence of squamous cell carcinoma. This study will analyze the incidence and type of skin cancer in the Swiss Transplant Cohort Study and the association with exposure to immunosuppressive and antiinfective drugs and other parameters like age or gender of organ transplant recipients.
The primary objective of this study is to measure the overall level of satisfaction in patients after cutaneous surgery in 4 different categories, including the surgeon, facility, procedure and recovery and outcome.
This study targets two major risk factors for cancer; is designed to treat the behaviors on a population basis, using proactive recruitment strategies; intervenes on multiple behaviors simultaneously, thereby producing greater impacts for cancer prevention; utilizes one of the most promising approaches to low cost population based interventions for health-related behavior change, namely the internet; and develops and tests a promising new approach to increasing the utilization and effectiveness of internet-based interventions, relational agents. The primary aims are: (1) To develop and assess the effectiveness of a tailored internet intervention on a national sample; (2) To develop and assess the effectiveness of the internet intervention enhanced by a relational agent; and (3) To determine if the intervention with the relational agent can outperform the regular tailored internet intervention.
The goal of this study is to understand factors which may influence risk for colorectal and other cancers in families. These factors include genetic variability, in combination with diet and lifestyle. In order to achieve these goals, we need to contact as many eligible participants as possible.
Background: - An experimental treatment for metastatic melanoma involves cell therapy, in which researchers take white blood cells (lymphocytes) from the tumor tissue, grow them in the laboratory in large numbers, and then use the cells to attack the tumor tissue. Before receiving the cells, chemotherapy is needed to temporarily suppress the immune system to improve the chances that the tumor-fighting cells will be able to survive in the body. In some studies of cell therapy, individuals who have received total body irradiation (TBI) in addition to the chemotherapy (in order to increase the length of time that they do not produce white blood cells) seem to have a slightly better response to the treatment, but it is not known if adding radiation to the cell therapy will cause a better response for all individuals. Researchers are interested in comparing cell therapy given with the usual chemotherapy to cell therapy given with the usual chemotherapy and TBI. Objectives: - To compare the effectiveness of cell therapy given with chemotherapy to cell therapy given with chemotherapy and total body irradiation in individuals with metastatic melanoma. Eligibility: - Individuals at least 18 years of age who have been diagnosed with metastatic melanoma. Design: - Participants will be screened with a physical examination, medical history, blood tests, and tumor imaging studies. - Participants will be divided into two groups: cell therapy with chemotherapy alone (group 1) or cell therapy with chemotherapy plus TBI (group 2). - All participants will provide a tumor sample from either surgery or a tumor biopsy for white blood cell collection. - Participants will have leukapheresis to collect additional white blood cells for cell growth and future testing, and TBI group participants will also provide stem cells to help them recover after radiation. (TBI participants who cannot provide enough stem cells will be moved to the non-radiation treatment group.) - Participants will have chemotherapy with cyclophosphamide (two treatments over 2 days) and fludarabine (five treatments over 5 days) starting 7 days before the cell therapy. Participants in the TBI group will also have TBI for the 3 days immediately before the cell therapy. - All participants will receive the white blood cells, followed by high-dose aldesleukin every 8 hours for up to 5 days after the cell infusion to help keep the therapy cells alive and active. Participants will also have injections of filgrastim to stimulate blood cell production, and participants in the TBI group will also receive their stem cells. - Participants will take an antibiotic for at least 6 months after treatment to prevent pneumonia, and will be asked to return for regular monitoring and followup visits for at least 5 years to evaluate the tumor s response to treatment.
Heart transplant is a recognized therapeutic strategy in refractory heart failure. Its success is however hampered by severe cancer occurrence and recurrence. The new m-tor inhibiting drugs Sirolimus and Everolimus have shown potential for reducing the incidence of cancer in animal models. They are potent immunosuppressant, antiproliferative and antiangiogenic drugs. This open labelled randomized multicenter study aims at evaluating the beneficial antineoplastic effect of Everolimus in 159 heart transplant patients suffering of recurrent skin cancer. Primary objective is to demonstrate a reduction in the number of new skin cancers. Secondary end point will be time of recurrence, incidence of non skin cancer, graft function following switch (including death), renal function evolution following calcineurin inhibitors reduction or withdrawal, Everolimus tolerance profile, schemes of calcineurin inhibitors reduction management in centers.
The goal of this study is to find out if some people are more likely to get melanoma, a form of skin cancer, than others are. To do this we will compare people who have had more than one melanoma to people who have had only one melanoma and to people who are similar but who have not developed melanoma. People respond to the environment in different ways. Some may be born with genes that make them more likely to get this type of skin cancer. Each person has many ways to repair normal damage to their genes. Specific genes may affect the repair of sun damage. Other genes affect the way the skin itself reacts to the sun. We want to find out which genes have normal changes in them and lead to different responses to exposures, such as the sun. We also want to find out if sun habits are related to the way these genes work.
The purpose of this study is to investigate new non-invasive imaging techniques for the evaluation of skin lesions, as well as normal skin. Our primary goal is to collect and study these images of different skin lesions along with matching biopsy specimens. The long-term goal is to develop a technique that will improve the early detection of skin cancer and eliminate the need for many skin biopsies. The High-resolution OCT (Apollo Medical Optics) device can provide both cross-sectional and en-face images with cellular information. Real-time color images through the same objective with OCT are also provided to show the OCT imaging location of lesion. The color image can be registered simultaneously on a larger dermoscopic image obtained by an external dermoscope. The imaging mode of cross-sectional, en-face and color image can be switched arbitrarily to align the lesion and obtain high-resolution images efficiently. The total imaging time is around 10 to 15 minutes depending on the number of images to be obtained. To help identify more diagnostic features of optical imaging and better understand their histology correlation, we have developed a novel technique called "precision biopsy". Precision biopsy is an optical imaging guided, feature-targeted mini-biopsy. Once the feature of interest is identified and isolated by the optical imaging, a 2.0 mm punch biopsy is performed. Besides cosmetic benefit of minimal scarring, this tissue sparing biopsy captures the "feature of interest" for histology revelation. Additionally, the histologic features of precision biopsy will be compared to images gathered by multi-modal optical imaging. The precision biopsy will also be compared to the traditional shave biopsy or shave excision, to determine whether the diagnostic information is comparable between the two methods. For live remote control (LRC) imaging consultation, MSK dermatologist will based on his clinical examination. An imaging technician will perform the clinical and dermoscopic imaging, while the expert reader will perform confocal imaging remotely via a HIPPA compliant Webex platform.