View clinical trials related to Skin Neoplasms.
Filter by:There are two goals of this research study. First, we hope to develop a plan to guide family discussions that can help parents diagnosed with lung cancer talk about cancer risk with their adult children. Second, we want to understand how families talk about cancer prevention.
In this study, we want to find out how likely it is for temozolomide to shrink melanoma tumors that have spread only to areas that could be removed by surgery. We also want to study the melanoma before and after temozolomide treatment to learn why some tumors respond and others do not. This is a Phase II trial. This means that it will test a drug - in this case, temozolomide -- that has already been studied and shown to be safe. Surgery, when possible, is the main treatment for patients with melanoma like yours. In most people, however, melanoma cells have already spread to other places in the body. This means that even with surgery, many people will have the melanoma come back. This is often fatal. One goal of this trial is to treat the melanoma cells that might have spread before they have a chance to grow. As part of this trial, we also study which genes are turned on and which genes are turned off in your tumor. We will obtain tumor from the biopsy done before you started temozolomide treatment and from the tumor removed during the surgery done after you finish temozolomide treatment. This may help us understand how temozolomide works and how to recognize which tumors will respond. Before and during the temozolomide treatment, we will also test a new way of measuring the amount of tumor present. This involves a special way of analyzing the CT scan which you will have anyway. This new technique may allow us to see tumor shrinkage very early in the treatment course.
Midazolam is an approved sedative medication used for medical procedures. This study was being done to document the safety and efficacy of midazolam in improving anxiety, heart rate, and blood pressure in patients prior to undergoing Mohs micrographic surgery for the treatment of skin cancer (basal cell carcinoma or squamous cell carcinoma). Midazolam may make a patient relaxed and sleepy, and lower blood pressure. These effects last for about 2 hours. This study had two parts. In the first part, eligible patients were randomized to either receiving one standard dose of midazolam syrup or placebo syrup before their surgery, with neither the patient nor the study team knowing which patient received the study drug. In the second part, patients who were not eligible to participate in the randomized study or who refused to participate in the randomized study were enrolled in a prospective arm where they knew they were receiving midazolam syrup. In the prospective arm, the doses were based on the patient's weight, and patients were given additional doses of midazolam syrup as necessary to control their anxiety. The primary hypothesis of this study was that a single dose of oral midazolam syrup to patients prior undergoing outpatient Mohs micrographic surgery for skin cancer would result in lower anxiety scores at 60 minutes compared to placebo. In addition, the second hypothesis of this study was that patients given oral midazolam would have the rate of adverse events that was not worse than 25% higher than in the placebo group.
This phase II trial is studying how well dasatinib works in treating patients with unresectable or metastatic squamous cell skin cancer or RAI Stage 0-I chronic lymphocytic leukemia. Dasatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
Study aim: To determine the effect of an intensified daily photoprotection over 24 months with an SPF30 sunscreen and an after sun-lotion both containing liposomal DNA repair enzymes in a population of patients at high-risk for skin cancer, including xeroderma pigmentosum (XP) and basal cell nevus syndrome.
Primary Objectives: - To establish a statistically significant database: With Spectroscopic Oblique-Incidence Reflectometry (OIR) experimental system, we will obtain OIR spatio-spectral images of 1,000 human skin non-melanocytic and melanocytic lesions that, based on clinical diagnosis, are routinely biopsied and submitted for histopathologic diagnosis and of the adjacent normal skin for self-referencing. The experimental database will contain demographic information, clinical diagnoses, clinical images, OIR images, histopathologic diagnoses, and morphometric data on the lesions. - To develop and validate a diagnostic algorithm: 1. Classification: A subset (~50%) of OIR images collected will be used to complete the development of state-of-the-art image processing algorithms to extract robustly effective diagnostic features. 2. Blind Testing and Evaluation: The algorithms established will be evaluated and validated in a prospective blind-test fashion using the complementary subset of the database that was not involved in designing the classifier. The sensitivity and specificity of the classification system will be evaluated based on the receiver-operating-characteristic (ROC) curve. - To identify the pathophysiologic parameters responsible for the diagnostic optical features: The anatomic and physiologic sources of the diagnostic optical signatures will be identified by comparative analyses using the OIR images, microscopic histomorphometric techniques and theoretical modeling to test the following hypotheses: 1. The calculated differences in hemoglobin oxygen saturation. 2. Comparisons of the calculated size distributions of skin scattering centers with histologic and morphometric analyses of various cellular and tissue components of the skin lesions. 3. The relative densities and distributions of the different anatomic and physiologic diagnostic features within the interrogation volumes are important diagnostic factors in OIR.
The goal of this study is to learn more about the physical discomfort, sensory impairment, depression, anxiety, and interference with relationships, family, and work associated with NMSC via survey questions.
Background: - Human peripheral blood lymphocytes have been engineered to express a T-cell receptor (TCR) that recognizes a blood type,HLA-A 0201 (human leukocyte antigen) derived from the gp100 protein. A retroviral vector was constructed that can deliver the T-cell receptor (TCR) to cells. - Patients' cells will be converted into cells able to recognize and fight melanoma tumors. Objectives: - To determine whether TCR-engineered lymphocytes can be put in cells removed from patients' tumors or blood and then reinfused, with the purpose of shrinking tumors. - To evaluate safety and effectiveness of the treatment. Eligibility: - Patients 18 years of age or older with metastatic cancer melanoma (cancer that has spread beyond the original site). - Patient's leukocyte antigen type is HLA-A 0201. Design: -Patients undergo the following procedures: - Leukapheresis (on two occasions). This is a method of collecting large numbers of white blood cells. The cells obtained in the first leukapheresis procedure are grown in the laboratory, and the anti-MART-1 protein is inserted into the cells using an inactivated (harmless) virus in a process called retroviral transduction. Cells collected in the second leukapheresis procedure are used to evaluate the effectiveness of the study treatment. - Chemotherapy. Patients are given chemotherapy through a vein (intravenously, IV) over 1 hour for 2 days to suppress the immune system so that the patient's immune cells do not interfere with the treatment. - Treatment with anti-melanoma antigen recognized by T-cells (MART)-1. Patients receive an intravenous (IV) infusion of the treated cells containing anti-MART-1 protein, followed by infusions of a drug called IL-2 (aldesleukin), which helps boost the effectiveness of the treated white cells. - Patients are given support medications to prevent complications such as infections. - Patients may undergo a tumor biopsy (removal of a small piece of tumor tissue). - Patients are evaluated with laboratory tests and imaging tests, such as CT (computed tomography) scans, 4 to 6 weeks after treatment and then once a month for 3 to 4 months to determine the response to treatment. - Patients have blood tests at 3, 6, and 12 months and then annually for 5 years.
The goal of this clinical research study is to evaluate the use of an imaging technology called spectral diagnosis. Researchers want to find out if a special spectral-diagnosis probe can be used to detect skin cancers.
Patients on immunosuppressive therapy, e.g. organ recipients, have a higher occurrence of AK than the untreated population. Keratotic lesions (i.e. AK lesions and warts) in this population is highly associated with development of SCC also with 10 times higher mortality rate because of SCC than expected. The risk of developing skin cancer, predominantly SCC and BCC, increases with graft survival time and the length of immunosuppressive treatment period. The higher risk of developing skin malignancy and more aggressive skin malignancies in this population, indicate the need for early removal of these pre-malignant lesions. In this study, two contralateral areas (5x10 cm2) with skin lesions within the patient will be compared. One area will receive Metvix PDT at defined intervals and the other will receive lesion specific treatment at the discretion of the investigator. The primary end-point will be the accumulated number of new lesions during the study and number of AK lesions that show complete response 3 months after baseline. Secondary endpoints will be number of BCC lesions that show complete response, number of recurrent lesions, assessment of cosmetic outcome and safety.