View clinical trials related to Advanced Tumor.
Filter by:The study is being conducted to evaluate safety, tolerability, pharmacokinetics and preliminary efficacy of PM1032 for patients with advanced tumors, also to explore the recommended Phase Ⅱ Dose(RP2D) of PM1032.
The study is being conducted to evaluate safety, tolerability, pharmacokinetics and preliminary efficacy of PM1009 for patients with advanced tumors, also to explore the recommended Phase Ⅱ Dose(RP2D) of PM1009. PM1009 is a new novel fully human anti-TIGIT x PVRIG bispecific antibody, containing a wildtype IgG1 Fc and has high monovalent affinity to each target, it can binds to both TIGIT and PVRIG overexpressing target cells and binds to TIGIT and PVRIG simultaneously.
To determine the safety, tolerability, and recommended dose (RP2D) of QLF32004 in patients with advanced malignancies.
The success of anti-CTLA4 therapy has inaugurated a paradigm shift in oncology where drugs target the immune system rather than cancer cells in order to stimulate the anti-tumor immune response. In situ immunization is a strategy where immunomodulatory products such as pathogens are injected into one tumor site in order to trigger a systemic anti-tumor immune response. Of importance, pre-clinical rationale has demonstrated that combination of anti-CTLA4 therapy together with intra-tumoral (IT) oncolytic virus can overcome primary resistance to systemic anti-CTLA4 therapy. Pexastimogene Devacirepvec (Pexa-Vec) is one of the new vaccinia oncolytic viruses genetically modified to express GM-CSF. This new and innovative oncolytic virotherapy should therefore synergize with anti-CTLA4 therapy via virus-induced tumor cell death & tumor-antigen release, GM-CSF-induced recruitment/maturation/activation of antigen presenting cells, and anti-CTLA4-induced Treg blockade/depletion. Intra-tumoral delivery of immunostimulating agents should, therefore, provide lower toxicity of mAb targeting immune checkpoints. Of note, IT injections of GM-CSF-encoding oncolytic viruses have already been shown to induce immune-mediated tumor responses on local (injected) and distant (not injected) tumor sites. In solid injectable refractory/relapsing metastatic tumors, we make the hypothesis that the addition of Pexa-Vec to IT ipilimumab (anti-CTLA4 Ab) will overcome primary/secondary resistance to standard therapy and/or immunotherapy with a better in situ tumor antigen specific T-cell priming. Our proposal is to conduct a 2-part Phase I clinical trial in order to define the feasibility, the safety and the anti-tumor effects of intra-tumoral injections of ipilimumab in combination with the oncolytic virus Pexa-Vec. Dose escalation step will define the MTD and RP2D of that in situ immunization strategy. Expansion part will assess the anti-tumor effect of the combination.
Phase I AZD2171 in combination with ZD1839 study recruiting patients with advanced cancer