View clinical trials related to Pancreatic Cancer.
Filter by:The purpose of this study is to research the effects of delivering full-dose neoadjuvant multi-agent chemotherapy (folfirinox) followed by stereotactic body radiation therapy (SBRT) in patients with resectable pancreatic ductal adenocarcinoma (PDAC) in order to intensify local therapy and improve outcomes.
A study to assess the biochemical and immunomodulatory effects of BXCL701 in pancreatic cancer.
Phase 1 study for patients with resected PDAC after neoadjuvant and/ or adjuvant chemotherapy and/or radiation, as well as patients with metastatic colorectal cancer who have exposure to 2 or more lines of chemotherapy, to evaluate safety and the immune response to pooled mutant-KRAS peptide vaccine (KRAS peptide vaccine) with poly-ICLC adjuvant in combination with nivolumab and ipilimumab.
Malnutrition and cachexia are common in patients with advanced pancreatic ductal adenocarcinoma (PDAC) and have a significant influence on the tolerance and response to treatments. If timely identified, malnourished PDAC patients could be treated to increase their capacity to complete the planned treatments and therefore, possibly, improve their efficacy. The aim of the study is to assess the impact of nutritional status, pancreatic exocrine insufficiency (PEI), and other clinical factors on patient outcomes in patients with advanced PDAC. The nutritional status will be determined by means of Mini-Nutritional Assessment score and laboratory blood tests. PEI will be defined as the presence of typical symptoms and/or reduced fecal elastase. Analysis: chemotherapy dosing over the first 12 weeks of therapy (i.e. percent of chemotherapy received in the first 12 weeks, as defined above) PAC-MAIN will provide insights on the role of malnutrition and PEI in outcomes of PDAC.
The purpose of this study is to identify and apply biomarkers that can provide better information than previous imaging and blood tests when evaluating the response after neoadjuvant chemotherapy in pancreatic cancer patients who require neoadjuvant therapy before surgery.
Malnutrition of hospitalized patients is reported in the range of 20-60% according to the definition and assessment method of malnutrition. In particular, the incidence of malnutrition in cancer patients is high up to 30-85%. Gastrointestinal disease is related to the digestion and absorption of nutrition therefore malnutrition rate of those patients is relatively high. Careful management of nutrition support is needed. Malnutrition causes dysfunction of the mesenteric membrane, immune function impairment, decreased function of major organs such as liver, kidney and heart and alteration in pharmacodynamics. It could also increase infection rate and complications of chemotherapy, delay recovery time, so that increase morbidity, mortality and length of hospital stay. Proper nutrition management reduces malnutrition prevalence and medical costs of hospitalized patient, therefore nutrition screening and evaluation is necessary. The recent spread of smartphones has made it easier to record and evaluate meals, which are used in the diet market for weight loss through meal records and feedback based on smartphone applications. This approach is also expected to benefit patients with gastrointestinal cancer, where proper nutrition and feedback are important. In particular, pancreatic cancer, the worst intractable cancer of mankind, is digestive cancer with the most severe muscle mass reduction and nutritional deterioration after diagnosis.
The preclinical data have demonstrated the feasibility of fluorescence-guided tumor resection by the Cancer Vision Googles (CVG) with LS301 in animal models. In this study, the investigators will conduct intraoperative imaging procedures that have minimal interference with ongoing surgery. The underlying hypothesis is that the accurate detection of all cancer cells highlighted by LS301 during surgery will reduce the number of patients with margin positivity to less than 5%, compared to the current surgical paradigm of greater than 15% in pancreatic cancer, for example. The pilot study will obtain critical data required to address the larger question of surgical margin assessment in a full Phase I clinical trial.
The Quebec Pancreas Cancer Study is a prospective clinic-based study consisting of clinical, family history and epidemiologic data, with accompanying biospecimens, from patients diagnosed with either pancreas cancer, a related cancer or a related pre-cancerous condition, and their families.
Merus is providing single patient/named access to the HER2/HER3 bispecific antibody, MCLA-128, to patients with advanced NRG1-fusion positive solid tumor under this early access program who are ineligible for an ongoing MCLA-128 clinical trial or have other considerations that prevent access to MCLA-128 through an existing clinical trial. Participating sites will be added as they apply for and are approved for the EAP. A medical doctor must decide whether the potential benefit outweighs the risk of receiving an investigational therapy based on the individual's medical history and program eligibility criteria.
Forty patients with pancreatic cancer, sarcoma and carcinoma of breast will receive DeltaRex-G intravenously at a dose of 1-4 x 10e11 colony forming units (cfu) or equivalent 0.6-1.8 x 10e10 RV copies per dose one to three times a week. DeltaRex-G may be given alone or with one or more FDA approved cancer therapies/immunotherapies. Based on previous Phase 1/2 US based clinical studies, DeltaRex-G does not suppress the bone marrow or cause serious organ dysfunction, and enhanced immune cell trafficking in tumors may cause the tumors to appear larger or new lesions to appear on CT, PET or MRI. Further, tumor stabilization/regression/remission may occur later during the treatment period. Therefore, DeltaRex-G will be continued regardless of CT, PET or MRI results if the patient has clinical benefit and does not have symptomatic disease progression.