View clinical trials related to Neoplasms.
Filter by:RATIONALE: Vaccines made from a peptide may help the body build an effective immune response to kill tumor cells. Colony-stimulating factors, such as GM-CSF, increase the number of white blood cells and platelets found in bone marrow or peripheral blood. Giving vaccine therapy after surgery may kill any tumor cells that remain after surgery. PURPOSE: This phase II trial is studying how well vaccine therapy works in treating patients with newly diagnosed glioblastoma multiforme.
The purpose of this study is to determine the safety of oral administration of vinorelbine once daily for at least 7 days. The study will be conducted in subjects with a non-hematologic malignancy for which there are no currently accepted therapies.
RATIONALE: Giving high-dose chemotherapy before an autologous stem cell transplant stops the growth of tumor cells by stopping them from dividing or killing them. Giving colony-stimulating factors, such as G-CSF, helps stem cells move from the bone marrow to the blood so they can be collected and stored. Chemotherapy is then given to prepare the bone marrow for the stem cell transplant. The stem cells are then returned to the patient to replace the blood-forming cells that were destroyed by the chemotherapy. PURPOSE: This clinical trial is studying how well giving busulfan, melphalan, and topotecan hydrochloride together with a stem cell transplant works in treating patients with newly diagnosed or relapsed solid tumor.
This study is being conducted to determine if a combination of AZD6244 given orally twice a day with standard doses of selected chemotherapies will be safe and tolerable for cancer patients with advanced solid tumors. The highest tolerated dose of AZD6244 in combination with selected chemotherapies will be evaluated. The study will also investigate how AZD6244 in combination with standard chemotherapies are absorbed, distributed and excreted by the body as well as the length of time that the drugs remain in the body. Initial and periodic assessments will establish patient response to the combination therapies
The purpose of this study is to learn more about the personal experiences of patients who are treated with pelvic exenteration surgery. Pelvic exenteration is a surgical procedure in which the pelvic organs including the reproductive organs, bladder and/or rectum are removed. We would like to understand more about the physical, emotional, educational, and sexual needs of patients who are treated with this surgery. We will use what we learn from this study to help find better ways of preparing patients for this type of surgery. This will also allow us to be more helpful to patients' needs after surgery.
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.
Doctors at Memorial Sloan Kettering Cancer Center and at other institutions study normal and cancer cells. To study these cells we need to have human tissue, body fluids, and blood. The patient will be having or have had a procedure to remove tissue. The doctors would like to use some of this tissue. The doctors will use it for laboratory studies on the causes, prevention, diagnosis and treatment of sarcoma, gastrointestinal or other intra-abdominal cancers. They will only use extra tissue left over after all needed testing has been done. They would also like to study components of the immune blood cells and blood serum (the liquid portion of the blood). In some patients they will take a blood sample before the tissue or body fluid is removed, usually at the same time that other routine pre-procedure blood tests are drawn. If thet need more blood, it will be drawn when the patient is seeing the doctor anyway. We will not draw more than 50cc (4-5 tablespoons) at any one time. With the patient's permission, thet may also send a small portion of the blood and/or a sample of the tissue to a repository at the National Cancer Institute. This will be used to identify special proteins in the blood or tissue that may be useful for diagnosing cancer. Information about the treatment and the response to treatment may be linked to the tissue specimens obtained. This information may be important for the research studies that will be done on the tissue, body fluid and blood specimens. All of this information will be kept in strictest confidence; they will use it only for biomedical research. The patient's name will not be used in any report.
The purpose of this study is to better understand the genetic causes of cancer and the inherited tendency to develop cancer. To accomplish this, blood specimens and/or saliva samples and/or tumor and normal tissue blocks from patients and families of patients with cancer will be collected. Blood specimens will be frozen and stored for analysis at a later date. Tumor tissue and normal tissue will be stored for analysis at a later date. In order to perform this study, patients and members of their families will be asked to provide blood samples and/or saliva samples. Individuals will be asked to provide a history of cancer in their relatives at the time the blood sample is given. No relatives will be contacted before they have been asked by a family member if they wish to participate in this study. If they do wish to participate, the relatives should indicate this by returning the "Family Member Consent for Contact Form" After we receive this form, arrangements may be made for the family member to send in a blood and/or saliva sample or to come in person to provide the sample to us. Except for family history, no medical information provided by one member of a family will be discussed with other family members. At the end of this form, we will also ask for your permission to be contacted in the future to discuss information about your health, additional research with your samples and/or certain research findings possibly related to your sample.
This phase I trial studies the side effects and best dose of veliparib when given together with irinotecan hydrochloride in treating patients with cancer that has spread to other parts of the body or that cannot be removed by surgery. Irinotecan hydrochloride can kill cancer cells by damaging the deoxyribonucleic acid (DNA) that is needed for cancer cell survival and growth. Veliparib may block proteins that repair the damaged DNA and may help irinotecan hydrochloride to kill more tumor cells. Giving irinotecan hydrochloride together with veliparib may kill more cancer cells.
Cancer is the number one killer in Canada and in most countries of the world. The investigators' initial assessment indicates that far infrared radiation has the potential to cure cancer.