View clinical trials related to Squamous Cell Carcinoma.
Filter by: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.
The purpose of this study is to image skin and skin lesions with a new imaging technology called "multiwavelength and coherence confocal reflectance microscopy". This technology uses low intensity laser to image below the surface of the skin. This technology may provide a new way of looking at skin and skin lesions. The goal of this study is to evaluate the images of your skin taken by this microscope. The techniques being evaluated in this study use multi wavelength and coherence confocal reflectance microscopy invivo. The term "in vivo" means in/on a living subject. In this study you will be the living subject and the multi wave length and coherence confocal microscope will be placed on your skin to look at your skin lesions and your normal skin. The confocal microscope uses a weak laser light and a sophisticated lens to image the individual cells that make up the skin. Your lesion will be photographed with high resolution photography. An area near your skin lesion that is clinically normal will also be imaged in the same manner.
OncoGel is a new experimental drug delivery system that allows the slow continuous release of paclitaxel (an approved intravenous anticancer drug), from a gel (ReGel) over a long period of time. The gel will disappear in 4 to 6 weeks as it releases the paclitaxel. The protocol is directed towards evaluating the efficacy and safety of paclitaxel delivered as a local, intralesional treatment when used in combination with chemotherapy (cisplatin and 5-FU) and radiation therapy before surgery.
The purpose of this study is to estimate, with pre-specified precision, the difference in local-regional control (LRC) rate at 2 years in subjects receiving chemoradiotherapy (CRT) or panitumumab plus radiotherapy (PRT) as first line treatment for locally advanced squamous cell carcinoma for the head and neck (SCCHN). A formal hypothesis will not be tested in this trial; however, the treatment arm difference in LRC rates at 2 years will be estimated.
This study is to compare the ability of optical biopsy. Research can use light enters the skin, collected, analyzed by the computer, and a picture created for the pathologist to conventional histologic examination compare with the pathologist looking at the piece of tissue through a microscope makes the diagnosis.
To identify unique blood markers in cancer patients so that we can identify patients with evidence of pre-existing immunity who may be a responder to immunotherapy.
The addition of chemotherapy to radiotherapy (chemoradiation) has improved outcomes for patients with locally advanced squamous cell carcinoma of the head and neck but additional improvements to treatment regimens are needed. The study is investigating if the addition of a targeted therapy (panitumumab) can improve the efficacy of chemoradiation without adding unmanageable toxicity.
In this research study we are looking to see how vulvar cancer responds to erlotinib therapy. Two distinct patient populations are targeted: women with locally advanced measurable squamous cell carcinoma of the vulva, primary or recurrent, who are candidates for definitive treatment with surgery or chemoradiation (Cohort 1) and women with radiographically measurable distant metastatic cancer either at time of presentation or with recurrence (Cohort 2). Another goal of this study is to learn more about the proteins and genes present in vulvar cancer and how they may affect response to erlotinib. Erlotinib treats cancer by preventing cancer cells from growing and multiplying. It does this by blocking certain proteins that are on the surface of some types of cancer cells. Laboratory tests show that vulvar cancer cells have high levels of these proteins.
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.
To estimate the effect of second-line panitumumab monotherapy on objective response in patients with metastatic or recurrent squamous cell carcinoma of head and neck (SCCHN).