View clinical trials related to Mesothelioma.
Filter by:This trial is to determine the safest dose of a triple combination (chemokine modulatory regimen or CKM) of celecoxib, interferon alfa (IFN), and rintatolimod that can be given with a DC vaccine as treatment of peritoneal surface malignancies after standard of care surgery. The first phase of this study will determine the safest dose of IFN that can be given in combination with celecoxib and rintatolimod along with a DC vaccine. The doses of celecoxib (400 mg) and rintatolimod (200 mg) will be consistent while the dose of IFN will be increased (5, 10, or 20 MU/m2) as participants are enrolled to the trial. The high dose of IFN in combination with celecoxib and rintatolimod will be used for the next phase of the clinical trial. After surgery, participants will receive 2 cycles of the investigational treatment. The second phase of this study will test if the investigational treatment has any effects on peritoneal surface malignancies. The doses of the combination determined in the first phase will be used in this phase of the clinical trial. After surgery, participants will receive 2 cycles of the investigational treatment, followed by standard chemotherapy as determined by their oncologist, and then 2 more cycles of the investigational treatment.
A Phase I, Open-Label, Multicentre Study to Assess the Safety, Tolerability, PK and Preliminary Anti-tumor Activity when given as a monotherapy of Tremelimumab or Tremelimumab in combination with MEDI4736 in Japanese Patients with Advanced Solid Malignancies, and when given as a monotherapy of tremelimumab in Second- or Third-line Treatment of Japanese Subjects with Unresectable Pleural or Peritoneal Malignant Mesothelioma
This study is for patients with malignant mesothelioma of the lung lining (called pleura) who have had previous chemotherapy with a platinum-based regimen whose disease has progressed. Malignant pleural mesothelioma (MPM) is an aggressive, frequently drug resistant, and incurable disease that is increasing in incidence in the UK and worldwide. All patients with MPM will relapse following first line chemotherapy and at present, there is no standard treatment available for patients in the second line setting. The vinca alkaloid chemotherapy drug vinorelbine has shown promising activity in a single arm UK trial. However to date, there has been no randomised evaluation of vinorelbine in mesothelioma in the second line setting. In addition, there have been no trials which have looked at underlying molecular changes in mesothelioma which may predict vinorelbine efficacy; This might allow vinorelbine to be used in patients only where there is a chance of benefit. Studies suggest that vinorelbine requires a gene called BRCA1 (shown to be absent in 38% of mesothelioma cases) in order to induce cell death in mesothelioma. The VIM trial aims to establish whether vinorelbine in patients with MPM helps them live longer and whether the BRCA1 gene is helpful in selecting patients most likely to benefit from treatment. Patients will be randomised (1:2) to receive either active symptom control (ASC) (which is all supportive care deemed necessary for pain management excluding disease modifying treatment) or ASC with vinorelbine. Patients will continue vinorelbine treatment until evidence of disease progression (or unacceptable toxicity to the drug or patient withdrawal). If vinorelbine activity is demonstrated, we will use the results from this trial to inform the design of a future phase III trial.
The objective of this phase 2 study is to evaluate the feasibility of an early palliative care intervention for metastatic cancer patients. Feasibility will be assessed in terms of percentage of patients that accept the proposal of the early palliative care intervention and that effectively start to be followed in the palliative care out-patient clinic. The study will be performed in a consecutive series of newly diagnosed patients affected by lung cancer (NSCLC or SCLC, stage IIIb, IV), mesothelioma (stage II, IV), pancreas (stage IV), stomach (stage IIIb-IV).
Many tumor cells, in contrast to normal cells, have been shown to require the amino acid glutamine to produce energy for growth and survival. To exploit the dependence of tumors on glutamine, CB-839, a potent and selective inhibitor of the first enzyme in glutamine utilization, glutaminase, will be tested in this Phase 1 study in patients with solid tumors. This study is an open-label Phase 1 evaluation of CB-839 in patients with advanced solid tumors. The study will be conducted in 2 parts. Part 1 is a dose escalation study enrolling patients with locally-advanced, metastatic and/or refractory solid tumors to receive CB-839 capsules orally twice or three times daily. In Part 2, patients with each of the following diseases will be enrolled: A) Triple-Negative Breast Cancer, B) Non-Small Cell Lung Cancer (adenocarcinoma), C) Renal Cell Cancer, D) Mesothelioma, E) Fumarate hydratase (FH)-deficient tumors, F) Succinate dehydrogenase (SDH)-deficient gastrointestinal stromal tumors (GIST), G) SDH-deficient non-GIST tumors, H) tumors harboring mutations in isocitrate dehydrogenase-1 (IDH1) or IDH2, and I) cMyc mutation tumors. As an extension of Parts 1 & 2, patients will be treated with CB-839 in combination with standard chemotherapy. Combination groups include: Pac-CB, CBE, CB-Erl, CBD, and CB-Cabo. Pac-CB: patients with locally-advanced or metastatic TNBC will be treated with paclitaxel and CB-839. CBE: patients with advanced clear cell RCC or papillary RCC will be treated with everolimus in combination with CB-839. CB-Erl: patients with advanced NSCLC lacking the T790M EGFR mutation will be treated with erlotinib and CB-839. CBD: patients with NSCLC harboring KRAS mutation will be treated with docetaxel and CB-839. CB-Cabo: patients with histologically confirmed diagnosis of locally-advanced, inoperable or metastatic RCC treated with cabozantinib in combination with CB-839. All patients will be assessed for safety, pharmacokinetics (plasma concentration of drug), pharmacodynamics (inhibition of glutaminase), biomarkers (biochemical markers that may predict responsiveness in later studies), and tumor response.
This is a prospective, open-label, mono-centric, phase I-Ib trial of Tivantinib in combination with Pemetrexed and Carboplatin as first-line therapy in patients with advanced or metastatic cancer suitable for a Carboplatin and Pemetrexed regimen as part of their specific therapy.
This is a clinical study investigating the new treatment of surgery combined with intraperitoneal mitomycin-C for patients with gastrointestinal cancer that has spread to the peritoneal (abdominal cavity) surface. Mitomycin-C to be used in this procedure is approved by the U.S. Food and Drug Administration (FDA)for many different cancers including gastrointestinal cancer. Giving mitomycin C via the intraperitoneal route is not FDA approved and is an investigation therapy. Cytoreductive surgery plus intraperitoneal chemotherapy can be offered as standard of care outside of a clinical trial. However, since this is an unproven and potentially more effective but a more toxic approach, the investigators are performing this procedure under an IRB approved clinical trial in order to better evaluate the risks and benefits of this approach. A standardized, evidence-based approach is currently lacking for patients with peritoneal surface malignancy from gastrointestinal origin. A clinical trial with surgical quality assurance and modern hyperthermic intraperitoneal chemotherapy incorporating critical assessment of disease burden, determinants of complete cytoreduction, treatment-related toxicity, quality of life and survival is imperative. Theoretically, cytoreductive surgery is performed to treat macroscopic disease, and hyperthermic intraperitoneal chemotherapy is used to treat microscopic residual disease with the objective of removing disease completely in a single procedure.
In this study, the investigators analyzed the efficiencies of hyaluronan, osteopontin, C-ERC/mesothelin, N-ERC/mesothelin and syndecan-1 serum levels, both individually and in combination, in distinguishing malignant pleural mesothelioma patients from patients with metastatic malignant pleural diseases, benign pleural diseases, and benign asbestos pleurisy.
This is a phase I study of intrapleural AdV-tk therapy in patients with malignant pleural effusion (MPE). The primary objective is to test the safety of intrapleural AdV-tk therapy. Secondary objectives are to evaluate clinical efficacy and biologic activity
The goal of this clinical research study is to learn if the Wilms Tumor-1 (WT1) vaccine, when given in combination with montanide and GM-CSF, can help to prevent or delay mesothelioma from coming back after surgery and treatment. The safety of this vaccine will also be tested. Montanide and GM-CSF are designed to cause white blood cells to grow, which may help to increase the immune response. WT1 is a protein in cancer cells that regulates gene expression and causes cell growth. Mesothelioma tumors usually have high levels of WT1. The WT1 vaccine is designed to cause the increased immune response created by other drug combinations (like montanide and GM-CSF) to be directed at mesothelioma.