View clinical trials related to Refractory Cancer.
Filter by:Primary objective: - To determine the maximum tolerated dose and/or recommended dose for extension for IMA401 Secondary objectives: - To characterize the safety and tolerability of IMA401 - To evaluate initial anti-tumor activity of IMA401 - To describe the pharmacokinetics of IMA401
CAR-T is a pioneering cancer treatment which has found success in some cancers. This treatment is made first by taking blood cells from the patient. Then in the lab, an artificial protein - a Chimeric Antigen Receptor (CAR), is grafted on the surface of immune cells. The modified cells, which are readministered to the patient, have enhanced abilities to target and destroy cancers than unmodified immune cells. Currently approved CAR-T can only be used autologously. i.e. the patient will receive CAR-T treatment made from their own cells. This is because current CAR-T treatment uses αβ T cells - a type of immune cell which are largely non-transferable between individual human beings due to the high risk of Graft-versus-Host Disease. However, autologous CAR-T comes with many limitations. A lengthy, manufacturing process follows after the patient donates their own blood, accompanied by a high risk of manufacturing failure, which can be attributed to the cell quality from cancer patients undergoing stressful anti-cancer therapy. CytoMed Therapeutics pioneers a new CAR-T treatment (CTM-N2D) which may confer some benefit over current CAR-T treatment. CTM-N2D uses a subtype of immune cell -- γδ T cell. Secondly, the CAR on CTM-N2D targets a surface antigen called NKG2DL which are commonly present in many cancer. These two features may confer a safer product profile, of better quality and may be efficacious in cancers where previous CAR-T treatments has not. The phase I clinical trial of CTM-N2D will be conducted at the National University Hospital, Singapore. The objective of this clinical trial is to determine the optimal dose of CTM-N2D, and to investigate its safety and tolerability. The subjects of the clinical trial will also be investigated for their tumour response to CTM-N2D. CTM-N2D has undergone preclinical studies. Relevant data from other clinical trials are also used to infer the expected outcome, and strategies of management of this clinical trial. The institution's ethical review board must give its approval before the study may begin. An independent Data Safety Monitoring Board monitors the safety aspect of this trial.
This is a phase 1b, open-label, dose-escalation study o STI-3258 administered intravenously in subjects with relapsed or refractory solid tumors.
This study is an open label, multicenter study in patients who have advanced, relapsed refractory GI cancer or are not relapsed/refractory but are intolerant to other therapies who, in the judgment of investigators, are candidates for fluoropyrimidine monotherapy.
This is a Phase 1/1b open-label, dose-escalation, and cohort expansion study with BID (tablet) oral dose of MPT-0118 in subjects with advanced or metastatic refractory solid tumors. The study will be conducted in 3 parts: - Part A: MPT-0118 dose-escalation - Part B: MPT-0118 dose-escalation in combination with pembrolizumab - Part C: Cohort expansion of MPT-0118 in combination with pembrolizumab
Lung cancer is one of the most common causes of cancer death worldwide. It is projected that the vast majority, approximately 80% -85% of all lung cancer diagnosis is Non-Small Cell Lung Cancer (NSCLC). Although there are significant improvements in the treatment of Lung Cancer in recent years, there is still an unmet medical need for a specific population which has advanced NSCLC and mostly is refractory to existing treatments. In NSCLC the molecular profile is important to direct the treatment. Specifically, for cases with an EGFR+, ALK+, ROS1+ or PD1/PDL1+ molecular profile, targeted treatments are available. PVT-1 is a safe, orally administrable and well-tolerated drug directed against a specific therapeutic target of cancer cells what has demonstrated efficacy in NSCLC with a molecular profile EGFR-, ALK-, ROS1- and refractory to anti-PD1 / PDL1, in last line, which also represents the highest percentage of patients and with the highest chances of cancer progression with currently available treatments.
TP53 is the most frequently mutated gene in cancer, but these mutations remain therapeutically non-actionable. Previous study reported arsenic trioxide could rescue structural p53 mutations, endowing p53 mutations with thermostability and transcriptional activity. Under Vivo and Vitro experiments, arsenic trioxide could reactivate mutated p53 to inhibit tumor. This trial aimed to explore the efficacy and safety of arsenic trioxide in refractory cancer patients with structural p53 mutations.
This is a study of treatment with TBX-3400 in subjects with solid malignant tumors that are resistant or refractory to standard therapies. The subject's own blood cells are exposed to a protein that has been shown in the laboratory to result in anti-tumor activity. The study hypothesis is that TBX-3400 cells will enhance anti-tumor activity and improve the body's immune response to the tumor.
This is a phase 2 open-label study to test the safety and effectiveness of combining pembrolizumab and bendamustine in patients with relapsed (cancer that has come back or started getting worse) or refractory (cancer that is not responding or has stopped responding to treatment) Hodgkin lymphoma.
This research study is evaluating a combination therapy of 3 drugs as possible treatments for recurrent primary central nervous system lymphoma (PCNSL). The three drugs being used in the study are: - Pembrolizumab (MK3475) - Ibrutinib - Rituximab (or biosimilar)