View clinical trials related to Ovarian Cancer.
Filter by:This trial is a Phase 1b/2a/3 trial designed to evaluate the safety and efficacy of adding oral AL3818 (Anlotinib, INN: Catequentinib), a Dual Receptor Tyrosine Kinase Inhibitor, to standard platinum-based chemotherapy concurrently in Subjects with Recurrent or Metastatic Endometrial, Ovarian, Fallopian, Primary Peritoneal or Cervical Carcinoma.
Of the approximately 21,000 cases of ovarian cancer diagnosed annually in the U.S, ten percent are attributed to hereditary syndromes, most commonly the result of mutations in the breast cancer susceptibility genes 1 or 2 (BRCA1 or BRCA2). Mutation in these genes results in the inability to repair double-stranded breaks in DNA. Treating these tumors with poly(adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibitors results in the specific killing of BRCA negative cells by blocking a second DNA-repair mechanism. Treatment of ovarian cancer patients with PARP inhibitors has resulted in improved progression free survival (PFS), but not overall survival (OS). It's not completely understood why this is the case, but some preclinical studies using ovarian cancer models in mice have suggested that combining PARP inhibitors with immune system modulators like T cell checkpoint inhibitors improves long-term survival. Therefore, the purpose of this study is to evaluate the safety and efficacy of a combination of a PARP inhibitor (Olaparib) with a T cell checkpoint inhibitor (the anti-CTLA-4 antibody Tremelimumab) in women with recurrent BRCA mutation-associated ovarian cancer.
This is an open-label, multicenter, global Phase 2 basket study of entrectinib (RXDX-101) for the treatment of patients with solid tumors that harbor an NTRK1/2/3, ROS1, or ALK gene fusion. Patients will be assigned to different baskets according to tumor type and gene fusion.
Ovarian cancer was mostly diagnosed at late stage (III/IV) with high rate of recurrence after first line of therapy by optimal cytoreductive sugery and 6-8cycle of TP chemotherapy. We developed an adjuvant chemotherapy of "three steps" (ACTS). It is adding CTX+VP-16(second step)6cycle and CTX+CBP(third steps) to firstline chemotherapy (first step). The aim of this study is to verify the effectivity and safety of ACTS.
This is a study that will look at the effects and how useful investigational drug olaparib is as a neoadjuvant treatment (treatment given as to shrink a tumor before the main treatment) prior to surgery in patients with recurrent ovarian, primary peritoneal or fallopian tube cancer.
The purpose of this study is to determine whether combining of radiofrequency ablation (RFA) and cytokine-induced killer cells (CIK) transfusion can prolong survival of patients with ovarian carcinoma.
Objectives of the study are: To estimate the incidence of venous thromboembolism (VTE) in a cohort of women with suspected ovarian cancer and evaluate changes in the coagulation system in case of benign or malignant disease. The impact of changes in the coagulation system on disease prognosis will be evaluated.
There is a move towards personalized medicine in cancer care, and significant effort is underway to evaluate new targeted therapeutics for the treatment of ovarian cancer. One way to identify potential new drug targets is by screening a drug library to determine whether drugs in the library target key kinase or enzymatic sites in cellular signaling pathways. Previous preclinical work and pilot studies demonstrated that ketorolac (a type of non-steroidal anti-inflammatory drug) inhibits GTPase activity in ovarian cancer cells retrieved from the post-operative peritoneal cavity. The purpose of this study is to confirm that this inhibitory effect is ketorolac driven and not a specific effect of the post-operative peritoneal compartment.
This phase II MATCH screening and multi-sub-trial studies how well treatment that is directed by genetic testing works in patients with solid tumors, lymphomas, or multiple myelomas that may have spread from where it first started to nearby tissue, lymph nodes, or distant parts of the body (advanced) and does not respond to treatment (refractory). Patients must have progressed following at least one line of standard treatment or for which no agreed upon treatment approach exists. Genetic tests look at the unique genetic material (genes) of patients' tumor cells. Patients with genetic abnormalities (such as mutations, amplifications, or translocations) may benefit more from treatment which targets their tumor's particular genetic abnormality. Identifying these genetic abnormalities first may help doctors plan better treatment for patients with solid tumors, lymphomas, or multiple myeloma.
This phase Ib trial studies the side effects and best dose of selinexor when given together with several different standard chemotherapy or immunotherapy regimens in treating patients with malignancies that have spread to other places in the body and usually cannot be cured or controlled with treatment (advanced). Selinexor may stop the growth of cancer cells by blocking enzymes needed for cell growth. Drugs used in chemotherapy work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Studying selinexor with different standard chemotherapy or immunotherapy regimens may help doctors learn the side effects and best dose of selinexor that can be given with different types of treatments in one study.