View clinical trials related to Metastatic Adenocarcinoma.
Filter by:The goal of this clinical trial is to evaluate the efficacy and safety of radiotherapy combined with chemotherapy and anti-PD-1 immunotherapy followed by surgery for the primary and metastatic lesions in patients with limited metastatic gastric or gastroesophageal junction adenocarcinoma. The main questions it aims to answer are: 1) If the multimodal treatment which includes anti-PD-1 immunotherapy and local therapies will improve the survival of this group of patients. 2) If the multimodal treatment which includes anti-PD-1 immunotherapy and local therapies can be performed safely in this group of patients. Participants will receive short course hypofractionated radiotherapy (HFRT) for the primary lesion, HFRT or stereotactic body radiotherapy (SBRT) for metastatic lesions, combined with systemic chemotherapy and anti-PD-1 immunotherapy. For patients with HER2-positive cancer (defined as IHC 3+ or 2+/ISH+), trastuzumab is used along with chemotherapy and anti-PD-1 antibody. Then, surgical resections of primary and metastatic lesions are performed as much as possible. For patients who need a widely invasive surgical approach or are inoperable, local ablative therapies such as radiofrequency ablation (RFA) and microwave ablation (MVA) can be alternatives. For patients undergoing surgical resections, postoperative treatment includes chemotherapy, which is determined by the researcher, and PD-1 antibody, which will be maintained until one year after surgery.
The objective of this research is to find out what effects (good and bad), the combination of gemcitabine and nab-paclitaxel therapy (GEM-ABR for the rest of the document), standard chemotherapy for pancreatic cancer, and the TheraBionic device has on participants' condition.
This phase 1/2 trial tests the safety and effectiveness of a cancer vaccine called Labvax 3(22)-23 and GM-CSF alone or in combination with pembrolizumab in treating adenocarcinoma that has spread to other places in the body (advanced stage). Labvax 3(22)-23 is designed to target a specific antigen (labyrinthin), which is a protein found on the surface of adenocarcinoma tumor cells. Labyrinthin is a protein that is not expressed on normal cells in the skin, lungs, salivary glands, pancreas, nor other tissues. In adenocarcinoma, the tumor cells produce too much labyrinthin causing them to express this protein on the surface of the tumor cells. One way to control the growth of these tumor cells is to teach the immune system to generate an immune response against the labyrinthin protein by vaccination against labyrinthin. GM-CSF, or sargramostim, is a protein that acts as a white blood cell growth factor. It has also been shown to stimulate immune system. Thus, administration of GM-CSF may help to boost the immune system response when given together with the vaccine. This study may improve the general knowledge about Labvax 3(22)-23 and how the body may generate an immune response to kill adenocarcinoma tumor cells. In the second phase of the study, participants will also receive pembrolizumab, which may improve anti-cancer activity when given with Labvax 3(22)-23 and GM-CSF.
For patients with advanced/metastatic gastric adenocarcinomas in progression after a first line chemotherapy comprising platinum and fluoropyrimidine, the reported second line treatments are : 1) paclitaxel combined with ramucirumab (overall response rate (ORR) = 25%; median progression free survival (PFS) = 2.9 months; median overall survival (OS)= 5.9 months), or paclitaxel alone (ORR = 14%, median PFS = 2.9 months; median OS= 5.9 months); 2) docetaxel (ORR = 7%, median OS = 5.2 months) or 3) irinotecan (ORR = 0%, median OS= 4.0 months). These numbers demonstrate the poor prognosis of this disease, and the unmet medical need for innovative therapeutic strategies. Cancer Genome Atlas (TCGA) mapped a genomic landscape of gastric adenocarcinomas, and identified 4 sub-types: - Tumor positive for Epstein-Barr virus (EBV) (8%), which display recurrent PIK3CA mutations, extreme DNA hypermethylation, and amplification of JAK2, ErbB2, PD-L1 and PD-L2; - Microsatellite instable tumors (MSI-high) (22%), which show elevated mutation rates, including mutations of genes encoding targetable oncogenic signaling proteins (PIK3CA, ErbB2, ErbB3, and EGFR); - Genomically stable tumors (20%), which are enriched for the diffuse histological variant and mutations of RHOA or fusions involving RHO-family GTPase-activating proteins; - Tumors with chromosomal instability (50%), which show marked aneuploidy and focal amplification of receptor tyrosine kinases and VEGFA. Most of diffuse-type gastric adenocarcinomas were classified in genomically stable tumors. This subgroup of cancers, accounting for about 20 to 30% of gastric adenocarcinomas, is associated with particularly poor prognosis and resistance to chemotherapy. A proteomic landscape of diffuse-type gastric adenocarcinomas was recently reported. Pembrolizumab, an anti-PDL1 drug granted with an accelerated approval by FDA in September 2017, exhibited promising activity in gastric adenocarcinoma patients previously treated with 1 or 2 lines of chemotherapy (ORR=11.6%, median PFS = 2.0 months, median OS= 5.6 months), especially in those with PDL1 positive tumors (ORR=22.7%). The tumor response was particularly high in patients with MSI-high tumor (ORR=57.1%). However the preliminary outcomes of the phase III KEYNOTE-061 trial (NCT02370498) recently released in the press suggest that pembrolizumab was not superior to paclitaxel in 592 patients with advanced gastric or gastroesophageal junction adenocarcinoma whose disease progressed after first-line treatment with platinum and fluoropyrimidine doublet therapy (the hazard ratio (HR) for OS was 0.82 (95% confidence interval = 0.66-1.03; one sided P = .042) (http://www.ascopost.com/News/58377). These outcomes suggest that, although being very promising, immunotherapy should be combined to other agents for being fully effective in gastric adenocarcinomas patients. We propose a strategy based on molecular features to select the drugs that will be associated with atezolizumab, an anti-PDL1 drug, in patients with pre-treated advanced gastric adenocarcinomas: - Patients with tumors positive for EBV or microsatellite instable tumors (30%) will be treated with atezolizumab and ipatasertib. - Patients with genomically stable tumors (20%) will be treated with atezolizumab combined with bevacizumab. - Patients with tumors with chromosomal instability (50%) will be treated with atezolizumab combined with bevacizumab. Expected outcomes: IMMUNOGAST trial will provide data about the clinical feasibility of biomolecular characterization of gastric adenocarcinomas for routine treatment adjustment. Moreover it should generate information about the relevance of adjusting combined immunotherapies based on molecular subtypes, in terms of clinical efficacy. Finally, translational research project outcomes should provide important data about relationships between efficacy and tumor immune gene spatial expression, along with tumor and circulating mutational burden. These outcomes may help identify the best candidates for tested combinations in the future.
This is a Phase I/Ib trial, single-center, non-randomized, open-label study of Protein-bound Paclitaxel, Cisplatin, And Gemcitabine (GCN) Combined with Tumor Treatment Fields (TTF) and G+TTF maintenance therapy in patients with metastatic pancreatic cancer.
This is an open-label Phase I trial designed to determine the phase 2 recommended dose (RP2D) of belinostat in combination with nivolumab with or without ipilimumab.
In this Phase I/II clinical trial, the investigators seek to pilot the addition of Hydroxychloroquine (HCQ) to a commonly-used front-line therapy of pancreatic cancer, gemcitabine/nab-paclitaxel. The investigators plan a run-in to define tolerable doses, and will explore doses of 800 and 1200 mg/day in successive cohorts of 6 patients. The investigators will assess toxicity continuously, and determine the dose for the Phase II trial based on standard toxicity criteria. The correlative endpoints of this trial are directed to the pharmacokinetics of HCQ, and pharmacokinetic model of HCQ based on data from several ongoing trials, and the data from these patients will contribute to refining the model. The investigators will analyze both measured and model-predicted indices for their relationship to autophagy induction. Autophagy will be assessed as the accumulation of autophagocytic vesicles in the PMNs of treated patients, together with the induction of the expression of autophagy-related proteins on western analysis, quantitated by densitometry. The investigators will document the rates of metabolic response as a consequence of treatment, as a therapeutic marker that may be related to the degree of autophagy inhibition. Since the investigators have previously demonstrated a key role of JNK1 in the induction of autophagy by chemotherapy, the investigators will analyze archival tumor materials to determine variability in this marker, as a baseline for potential future trials. Finally, this study will incorporate metabolic profiling by mass spectrometry, which will be related to mutations (including Kras) in pretreatment tumor specimens. Mutational analysis will be accomplished by targeted sequencing or by next-generation sequencing, and the need for fresh tissue for all these endpoints will require patients to have a biopsy performed before treatment at at 6-8 weeks after beginning treatment. In the previous study of the Hh inhibitor GDC-0973 with the same chemotherapy, the investigators were able to obtain repeat biopsies successfully on all patients. The importance of these biopsies, to move the science forward in an era in which the tools now exist to provide meaningful correlative science, cannot be overstated.