View clinical trials related to Peritoneal Neoplasms.
Filter by:To assess the efficacy of pasireotide in the reduction of clinically relevant postoperative digestive leakage after CRS plus HIPEC compared to placebo
Women with history of tumor response insufficient to allow complete cytoreductive surgery after three cycles of previous neoadjuvant systemic carboplatin-paclitaxel chemotherapy will be prospectively recruited in this trial. After signed consent and if unresectability is confirmed, patients will undergo three cycles of doxorubicin-cisplatin PIPAC chemotherapy associated with systemic carboplatin-paclitaxel chemotherapy (alternating PIPAC and intravenous chemotherapy sessions over 3 cycles of 4 weeks). The primary objective of the study is to determine the maximum tolerated dose (MDT). During cycle 1, limiting dose toxicity must be collected as soon as it is known. Each patients will be treated at the dose recommended by the CRM (Continual Reassessment Method ) algorithm conditional on dose-limiting toxicity during Cycle 1. The dose escalation will be guided by CRM to determine the recommended dose of PIPAC chemotherapy for phase II trial. Secondary objectives are : - to evaluate the anatomopathological response, the radiologic tumoral response and the evolution of the peritoneal cancer extent, to the combined chemotherapy - to describe the pharmacokinetic of the PIPAC chemotherapy - to investigate the KELIM parameter as a predictive marker in the response sensitivity of the combined chemotherapy treatment - and to evaluate the safety of the combined chemotherapy. During the first day of the first cycle, blood samples will be collected to measure doxorubicin and cisplatin (pharmacokinetic study). Along these 3 cycles, the dose of antigen CA-125 will be performed before each chemotherapies (intraperitoneal or intravenous). At the end of combined chemotherapy treatment, patients will undergo radiologic tumoral response by imaging assessment (scanner or MRI) and a last dosage of CA-125 will be realized.. In case of a complete / partial response / stabilization (RECIST criteria v.1.) on the imaging, re-evaluation for resectability will be done. If resectable disease, cytoreductive surgery will be programmed and a post-operative visit 1 month later will be realized. Otherwise for patients with progress disease or unresectable the participation in the study will be finished.
Advanced gastric cancer combined with peritoneal seeind has dismal prognosis with poor response to systemic chemotherapy and with rapid aggravation of symptoms such as abdominal pain, ileus, and poor nutritional intake. Intraperitoneal (IP) chemotherapy through IP port or catheter has lower complication than HIPEC (hyperthermic intraperitoneal chemotherapy) and can deliver higher dose of chemotherapy with less systemic toxicity. IP chemotherapy combined with systemic chemotehrapy showed benefit in several clinical trials, despite lack of statistical significance in phase 3 clinical trial. Proper dose/combination of chemotherapeutic agents and indication of IP chemotherapy should be investigated through prospective, large-scale clinical trials. Conversion surgery after cytotoxic chemotherapy showed improved survival in retrospective studies. Our hypothesis is that IP chemotherapy combined with systemic chemotherpay (capecitabine + oxaliplatin) would improve success rate of conversion surgery with R0 resection. In the present study, the treatment regimen consists of intraperitoneal paclitaxel combined with oxaliplatin and capecitabine (XELOX), and will be performed following surgery.
Peritoneal carcinomatosis from advanced gastro-intestinal malignancy has historically been associated with poor overall survival (≤ 12 months) with few treatment options. Cytoreductive surgery (CRS), which involves removal of all macroscopic tumor nodules, combined with direct administration of heated intra-peritoneal (IP) chemotherapy (HIPEC) to the affected peritoneal surfaces, has been shown to be an effective treatment option that extends overall survival among certain cases of peritoneal carcinomatosis. IP chemotherapy allows delivery of a high dose of cytostatic drug directly onto the peritoneal surfaces at risk for microscopic residual disease while systemic exposure remains limited. Additionally, hyperthermia is known to enhance the cytotoxicity of several agents (including Mitomycin C) and improves the depth of peritoneal penetration. This trial will be a randomized phase 2 comparison of flat dose versus weight-based dose Mitomycin C. The hypothesis of this study is that HIPEC weight-based dosing may result in similarly effective peritoneal Mitomycin C concentrations with less systemic absorption and potential systemic toxicity, compared with the HIPEC flat dosing approach in patients undergoing CRS/HIPEC.
This study aims to explore the value of 68Ga-FAPI PET/CT in the diagnosis of gastric cancer peritoneal carcinomatosis in high-risk patients compared with conventional abdominal enhanced CT and 18F-FDG PET/CT. The patients with gastric adenocarcinoma (cT4/N+/M0-1) will be studied.
PIPADN is a pilot monocentric, study with a total duration of 42 months. The purpose of this study is to describe the variation of plasma ctDNA concentration between the 1st and the 3rd PIPAC session in patients with peritoneal carcinomatosis. The improvement of life quality with this type of treatment will also be evaluated though the EORTC QLQ-C30 survey. Each patient will have three PIPAC sessions spaced 6 to 8 weeks apart. Two blood samples will be taken during the first 3 PIPAC sessions, one the day before each procedure and a second one 24 hours afterwards. The EORTC QLQ 30 survey will be completed by patients during the pre-operative consultation and at each post-operative consultation (about 3 weeks after PIPAC sessions).
This is a phase II clinical trial assessing the safety and efficacy of sequential systemic and intraperitoneal (IP) chemotherapy in patients with primary gastric/gastroesophageal junction cancer with cytology positive peritoneal lavage and/or peritoneal carcinomatosis.
Cytoreductive surgery with hyperthermic intraperitoneal chemotherapy (HIPEC) has prolonged the survival substantially for selected patients with peritoneal metastases from colorectal cancer.Bleeding and thromboembolic disease have been reported as postoperative complications related to this advanced open surgical treatment. However, perioperative changes in coagulation and fibrinolysis are only sparsely reported in the literature.The mainstay of treatment with curative intend of none-advanced colorectal cancer is minimally invasive laparoscopic surgery followed by adjuvant chemotherapy. The approach is considered associated with a lower risk of thromboembolic disease than open surgery. Despite differences in extent of surgery and thromboembolic risk the same extended thromboprophylaxis regimen for 28 days is currently prescribed to patients undergoing cytoreductive surgery with HIPEC as well as minimally invasive rectal cancer resection. This study aims to investigate all parts of the coagulation system and fibrinolysis, and thereby thromboembolic risk and potential bleeding in two groups of patients with different extent of surgical trauma: 1) Colorectal cancer patients undergoing cytoreductive surgery with HIPEC and 2) rectal cancer patients undergoing minimal invasive rectal cancer resection. Our hypothesis is that patients undergoing cytoreductive surgery with HIPEC are exposed to more aggravated alterations of coagulation and fibrinolysis than patients undergoing minimally invasive rectal cancer resection.
Colorectal cancer is the third most common cancer in men and second in women. It represent 345'346 new cases per year in Europe and 134'349 in the United States of America. The peritoneal cavity is the second most frequent site, after liver, for colorectal cancer relapse.Peritoneal carcinomatosis (PC) is found in approximately 5 % of patients diagnosed with colorectal cancer and 24% of patients with synchronous metastasis at the time of diagnosis. Eight percent of colorectal cancer patient will develop PC during the course of their disease . Currently systemic chemotherapy is the standard of care for the treatment of unresectable peritoneal carcinomatosis from colorectal cancer with a median survival rate of 16.3 months Peritoneal carcinomatosis has a poor response to systemic chemotherapy due to a weak penetration of agents into the peritoneum. A new approach of intraperitoneal carcinomatosis is now developed: Pressurized intraperitoneal aerosol chemotherapy (PIPAC) is used to deliver intraperitoneal chemotherapy. It enhances the effect of chemotherapy because of the physical properties of aerosol and pressure. PIPAC is a safe with a 23% morbidity and tolerated technic that is now well described. We want to conduct a study to prove or infirm the superiority of PIPAC associated with systemic chemotherapy compare to systemic chemotherapy alone in peritoneal carcinomatosis from colorectal cancer
How epigenetic deregulation affects gene expression patterns in subclones of the same tumor is poorly known. Peritoneal Carcinomatosis (PC) is a condition in which multiple metastases of the same abdominal tumor develop in the peritoneal cavity and intra-peritoneal organs, thus defining different ecosystems of the same cancer. PITCHER addresses the variations in epigenetically regulated gene expression between different subclones of PC in relation with cell mechanoresponses, providing insights on how cancer epigenetic landscapes evolve under environmental pressures and on strategies used by cancer cells to adapt to the transition from one ecosystem to the other. PITCHER is a network of 10 teams from Lyon, Grenoble and Marseille, based on data and specimen collection of patients who have undergone a surgery for a peritoneal carcinomatosis of ovarian or colorectal origin. PC lesions and eventually matched specimens of primary tumors will be collected in the same patients at the time of the surgery or eventually retrieved from already existing samples. Epigenetic landscapes will be analyzed by a bioinformatics pipeline combining exome sequencing, transcriptome and methylome to identify "epigenetic hotspots", and their variations across lesions will be evaluated. These analyses will be realized in fresh (when available) or pre-existing samples. When possible, organoid cultures and animal models will be derived from multicellular structures in peritoneal fluids and membrane, cytoskeletal and nucleoskeletal mechanoresponses will be characterized using Atomic Force Microscopy. The role of tumor axonogenesis, a process of neo-formation of axon fibers in tumors, will be addressed. Experimental studies of cell responses to therapy will be performed to derive mathematical predictive models. All components will be integrated in a systems biology map of PC.