View clinical trials related to Malignant Tumor.
Filter by:Run-in safety study, to determine the safety of co-administration of irinotecan, raloxifene, and Xiao Chai Hu Tang (XCHT), and to optimize the blood collection time points for pharmacokinetic (PK) study for another randomized control trial.
The tongue images of malignant tumors and corresponding healthy people will be collected to establish the tongue image database. Deep learning will be carried out by computer and artificial intelligence to construct the early screening, diagnosis, prognosis and prognosis model of various malignant tumors based on tongue image for the diagnosis and treatment of malignant tumors.
This study is a clinical study of CAR-T treatment of patients with relapsed/refractory malignant tumors in children. The purpose is to evaluate the safety and effectiveness of chimeric antigen receptor T cells in the treatment of relapsed/refractory malignant tumors in children.
This is a Phase 1/2a, first-in-human, open-label study of JAB-8263, this study has two parts: solid tumor dose escalation and expansion study and hematology tumor dose escalation and expansion study. These two parts will determine the maximum tolerated dose (MTD), recommended Phase 2 dose (RP2D) and assess the DLT of JAB-8263 in treatment with patients with advanced solid tumors and hematology tumors separately. 30 subjects each will be enrolled.
Tumor-specific antigens can be induced by demethylation drugs. Antigen-targeting DC-CTL cells supposed to eliminate cancer cells efficiently and specifically. In this study investigators co-culture DCs cells with peptides derived from tumor specific antigen to generate antigen-specific DC-CTLs (Ag-CTL). Following treatment with demethylation drugs, Ag-CTL will be used to eliminate tumor cells. This study aims to evaluate the effectiveness and safety of Ag-CTL combined with demethylation drugs.
Immunotherapy has become the major breakthrough and the most promising treatment, with the host of development of tumor biology, molecular biology and immunology. ROBO1 is a potential target and spectacular paradigm in the diagnosis and treatment of solid tumors. This study is for evaluation of the safety and efficacy of ROBO1 CAR-NK/T cell immunotherapy for malignant tumors.
This is an open , multicenter, interventional clinical trial to conform the role of of miR-122 a real-time detection biomarker of drug-induced liver injury by chemotherapy.
In vitro studies have demonstrated that sodium selenite in sufficient concentration and during sufficient time have a high tumoricidal capacity. This is found in many human cell types as leukemia cells, mesothelioma and non-small cell lung cancer cells. A minority of cell lines seem to be resistant. The question from a clinical point of view is: Is it possible with respect to toxicity to administer sodium selenite to patients in sufficient dose and during sufficient time to get responses in patients with cancer? We have performed first part of phase-1 study and found MTD of 10.2 mg/m2 if given as 10 daily infusions during 12 days. We have recorded limited anti-tumor effect in this treatment regimen. However, in vitro data suggest that low concentration of continuous exposure for 51 h is much more effective. Now we are planning to continue the phase-I trial with modified protocol. More specific: 1. Phase I: Find maximal tolerable dose with continuous infusion 2. Phase II: Use MTD and study responses, if any
Next generation sequencing (including targeted gene seqeuncing, exome and transcriptome sequencing) will be performed from fresh frozen tumor samples to understand the genetic alteration of tumors and to aid in optimal selection of further therapeutic agents.