View clinical trials related to Neoplasms.
Filter by:The study is a first-in-human (FIH), open-label, multi-center phase 1/2 study of TSN1611 in subjects with KRAS G12D mutant advanced solid tumors. This study will consist of a phase 1 dose escalation part and phase 2 dose expansion part.
The study is being conducted to evaluate the safety, tolerability, and efficacy of HRS-4642 in combination with antitumor medicine in patients with advanced solid tumors harboring KRAS G12D mutation.
This phase II MATCH treatment trial tests how well MLN0128 (TAK-228) works in treating patients with cancer that has certain genetic changes called mTOR mutations. MLN0128 (TAK-228) may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth.
This phase II MATCH treatment trial tests how well afatinib works in treating patients with cancer that has certain genetic changes. Afatinib is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the EGFR gene. It works by blocking the action of mutated EGFR that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
This is a Phase 1/2, first in human (FIH), open-label, multicenter study of PBI-410 in participants with previously treated, advanced solid tumors.
This is a multicenter, open-label, Phase 1 study. The study will enroll subjects with advanced solid tumors. It consists of three parts. Part 1 is dose-escalation part. In part 1, the safety and tolerability of YL211 in patients with selected advanced solid tumors will be evaluated and the MTD and RED will be determined. Part 2 is backfill enrollment part. We will further estimate the safety and efficacy of YL211 in patients with selected adcance tumor to select the RED(s) of YL211. Part 3 is dose-expansion part. In this part, we will further evaluate the safety and efficacy of YL211 at the MTD/RED(s) in patients with selected advanced solid tumors YL211 will be administered intravenously (IV) until criteria of treatment discontinuation are met.
The NRG1 gene is located on chromosome 8 (8p12 region) and encode NRG1. NRG1 gene is translated to generate six different proteins (I-VI) and at least 31 isoforms. NRG1 proteins are structurally related to EGF and contain an EGF-like motif that binds and activates ErbB3 and ErbB4. Upon ligand binding, these receptors form homodimers or heterodimers, which results in phosphorylation of the intrinsic kinase domain, and activation of the PI3K-AKT, MAPK, and other pathways. The overall incidence of NRG1 fusions is very rare. In many tumor types, only limited numbers of NRG1 fusion variant have been identified. By percentage, there is no organ dominance of the presence of NRG1 fusions. In an analysis of 21, 858 tumor specimens that underwent anchored multiplex PCR for targeted RNA sequencing, the prevalence of NRG1 fusions was 0.2%. Of these, CD74 was the most common partner (29%), followed by ATP1B1 (10%), SDC4 (7%), and RBPMS (5%), and most CD74-NRG1 fusions have been reported in patients with lung IMA. NRG1 fusions result in aberrant expression of the epidermal growth factor (EGF)-like domain of neuregulin-1 (NRG1) on the cell surface binds primarily to ErbB3 and ErbB4, leading to heterodimerization or oligomerization with other ERBB family members. NRG1-mediated activation of ErbB3 promotes dimerization with EGFR, ErbB2, and ErbB4. These partners phosphorylate ErbB3, forming docking sites for SH2-domain proteins, leading to pathologic activation of multiple signal transduction pathways, including the phosphoinositide 3-kinase (PI3K) pathway. Subsequently, ErbB3 expression was noted at high levels, and the proteins were phosphorylated, in fusion-positive cases. Targeting ErbB3 signaling therefore represents a promising therapeutic approach for patients with NRG1 fusion-positive malignancies.
This study is a multicentre, open phase I clinical study of dose escalation, dose extension and efficacy extension of HRS-7058 in subjects with advanced malignant tumour. To evaluate the safety, tolerability, pharmacokinetics and efficacy of HRS-7058.
The objective of the study is to constrcut a noninvasive approach 68Ga-Nb-1 PET/CT to detect the PD-L1 expression of tumor lesions in patients with solid tumors and to identify patients benefiting from anti-PD-L1 treatment.
To find a recommended dose of PRAME-TCR-NK cells that can be given to patients with AML or MDS.