View clinical trials related to Epithelial Ovarian Cancer.
Filter by:To determine whether the combination of MM-121 plus paclitaxel is more effective than paclitaxel alone
The purpose of this study is to help us learn how to lower the risk of a blood transfusion during surgery to remove ovarian cancer. Acute normovolemic hemodilution (ANH) is a technique performed in the operating room before the procedure begins that may reduce the risk of needing a transfusion during ovarian cancer surgery. During surgery, the patient's own blood is given back to them when needed, usually due to bleeding. If you don't need blood during surgery, your own blood will be given back at the end of the case. The idea behind ANH is that that by removing the blood and replacing it with other fluids, the remaining blood becomes diluted. This diluted blood is then lost during surgery, usually due to bleeding. The original non-diluted blood is then transfused back as needed. This may mean a lower chance of needing an additional blood transfusion. ANH has been studied at this hospital for other types of cancer. These studies suggest that ANH may help conserve blood. Although most studies suggest that ANH can be performed safely, one study showed that ANH could be associated with a higher rate of serious bowel complications than standard treatment. In this study, patients who underwent ANH had a higher rate of anastomotic leaks during bowel surgery. An anastomotic leak occurs when two ends of bowel that have been cut and sewn back together (the anastomosis), fall apart. The investigators don't know whether ANH will result in higher rates of anastomotic leaks in patients having ovarian cancer surgery. In fact, in another study evaluating ANH in patients having the kind of bowel resections that often occur in ovarian cancer surgery (the colon), no increased risk of anastomotic leaks was observed. For these reasons, researchers at MSKCC are conducting a study to find out if ANH can be used safely in patients undergoing surgery for ovarian cancer.
Estrogens are implicated in the development of ovarian cancer and estrogen receptors (ER) alpha and beta are present in 20-100% of ovarian cancer patients. For this reason, antihormonal therapy with anti-estrogens or ER-antagonists is potentially an attractive treatment option. However, only a small proportion of patients (5-19%) will respond to antihormonal therapy. ER-expression in ER-positive breast cancer can be assessed by positron emission tomography (PET) with [18F]fluoroestradiol (FES). In this study the investigators will evaluate whether FES-PET can be used to visualize and quantify ER-expression in ovarian cancer. If these results are positive, this would warrant further exploration of FES-PET imaging in ovarian cancer.
The purpose of this study is to determine, whether there is clinical benefit of using fdg-PET/CT (F-18-fluorodeoxyglucose- positron emission tomography/computed tomography)compared to contrast-enhanced CT in primary treatment of advanced epithelial ovarian cancer (EOC) - Objectives - the impact of preoperative PET/CT compared to CT on EOC stage definition - to compare the value of preoperative PET/CT, CT and laparoscopy in intra-abdominal tumour assessment. Laparotomy findings evaluated by surgeon and histopathologic results serve as the reference standard. - to compare serum markers HE4(human epididymis protein 4) and CA125 (cancer antigen 125) with FDG-PET/CT and CT in treatment response evaluation during neoadjuvant chemotherapy and primary treatment of EOC - to compare FDG PET/CT based treatment response evaluation with RECIST and GCIG criteria - Methods - All the patients will undergo FDG-PET/CT prior surgery, after possible neoadjuvant chemotherapy (NACT) and 4 weeks after completion of primary platinum-based chemotherapy. - CA125 and HE4 levels are measured pre-operatively, with every chemotherapy cycle and regularly during follow-up until 1st disease relapse
The current trial shall clarify the potential of the multitarget antiangiogenic tyrosinkinase inhibitor GW 786034 (pazopanib) in combination with oral cyclophosphamide as salvage treatment in patients with recurrent, pretreated ovarian cancer.
This study will test the feasibility of combining 3 drugs, Revlimid with Doxil and Bevacizumab,and gather preliminary data on the potential activity of the combination in patients with platinum resistant/refractory ovarian cancer.
The purpose of this study is to determine if patients with p53 mutated epithelial ovarian cancer that have been treated with first line treatment (paclitaxel - carboplatin combination therapy) and that have shown early relapse (within 3 months) or progression during treatment will benefit from treatment with Wee-1 inhibitor MK-1775 and carboplatin. Additional safety and preliminary anti-tumor activity cohort (first patient in 2017): To determine the safety and preliminary anti-tumor activity (RECIST 1.1) of AZD1775 in combination with carboplatin in platinum resistant p53 mutated epithelial ovarian cancer (relapse within 6 months), NSCLC, SCLC, cervical, and endometrial cancer, in a 21 day schedule.
This study is to determine the feasibility of administering neoadjuvant carboplatin, paclitaxel, and bevacizumab without excessive dose modification or cycle delay in patients with epithelial ovarian cancer, primary peritoneal cancer or fallopian tube cancer. This study will also investigate the rate of optimal cytoreduction, response rate and progression free and overall survival, and to assess the quality of life for patients with epithelial ovarian cancer, primary peritoneal cancer or fallopian tube cancer treated with neoadjuvant carboplatin, paclitaxel and bevacizumab.
The Novel Markers Trial will compare the safety, feasibility and effectiveness of two different epithelial ovarian cancer screening strategies that use CA125 and add HE4 as either a first or second line screen. This study is the next step in a larger research effort to develop a blood test that can be used as a screening method for the early detection of epithelial ovarian cancer.
The purpose of this research is to determine if a film to prevent adhesions will improve the area of distribution of a contrast dye (representative of chemotherapy) in the abdominal cavity (belly) of women who have undergone surgery for ovarian cancer as compared with patients who have not had adhesion barrier sheets placed in the belly. It is believed that this film, Seprafilm™, reduces adhesions (scar tissue between tissues and organs) in the abdominal cavity following surgery. Adhesions can limit the distribution of the chemotherapy agent placed in the abdomen to treat the ovarian cancer. Thirty subjects will receive adhesion barrier sheets and thirty will not. To determine if the sheets prevent adhesions, all subjects will have a dye inserted into the abdomen and then have X-rays of the abdomen to look at the distribution of the dye between the two groups. Hypothesis: Null hypothesis: There is no difference in area of distribution of the intraperitoneal dye in the Seprafilm ™ vs. no Seprafilm™ groups. Alternative hypothesis: Seprafilm™ reduces adhesion formation and there is a larger area of distribution of intraperitoneal dye in the Seprafilm™ group.