View clinical trials related to Ovarian Neoplasm.
Filter by:The primary objective of the study was to evaluate whether progression-free survival (PFS) was prolonged with the addition of veliparib to standard platinum-based chemotherapy (carboplatin/paclitaxel [C/P]) and continued as maintenance therapy compared with chemotherapy alone.
Background: - Certain genetic mutations are linked to higher rates of cancer. It is important for people with these mutations to tell their families about it. This is because others in the family may also be at greater risk for developing these cancers. They can also pass these genes to their own children. But not much is known about how African Americans tell their family members about the results of their genetic testing. The information from this study can be used to improve genetic counseling services. These services will then be more effective in early cancer detection and prevention in the African American community. Objectives: - To learn more about how African Americans who have tested positive for BRCA1/2 mutations tell their families about their genetic risk. Eligibility: - African American (or of African descent) women who recently received positive test results for BRCA1/2 mutations. Design: - Participants will be screened with a basic medical history. - They will be asked general questions about their personal and family history. These include questions on marital and health insurance status, education, and income. - Those in the study will have a 45- to 60-minute phone interview. They will answer questions about how they told their family members about their genetic test results. They will also be asked what that experience was like.
This study will examine whether vaccination with a p53 peptide can boost an immune response to ovarian cancer and what the side effects are of the vaccine. Many patients with ovarian cancer have an altered (mutated) gene called p53 that causes the production of abnormal proteins found in their tumor cells. The body s immune system may try, unsuccessfully, to fight these abnormal proteins. In this study, ovarian cancer patients with a p53 abnormality will be vaccinated with a p53 peptide a part of the same abnormal protein found in their tumor to try to boost their body s immune response to the cancer. Patients will be divided into two groups. Group A will have four p53 peptide vaccinations three weeks apart, injected under the skin. The injection will include a drug called ISA-51, which increases the effect of the vaccine. This group will also receive two other drugs that boost the immune system, IL-2 and GM-CSF. Group B will have four p53 peptide vaccinations three weeks apart. The peptide will be mixed with the patient s own blood cells and infused into a vein. This group will also receive IL-2, but not GM-CSF. All study candidates will be tested to see if their cancer has a p53 abnormality and if their immune system mounted a defense against it. These tests may include a tumor biopsy (removal of a small part of the tumor for microscopic examination); lymphapheresis (a procedure to take blood, remove white blood cells called lymphocytes, and return the red cells); and an immune response test similar to a skin test for tuberculosis. During the study, patients will have additional skin tests and blood tests.