View clinical trials related to PD-L1.
Filter by:Patients diagnosed with locally advanced nasopharyngeal carcinoma will be recruited in this study. All the patients will get 3 cycles of GP+ Envafolimab for the induction chemotherapy. After that, the patients will receive concurrent chemoradiotherapy. Radiotherapy will be given by IMRT, under the dose of GTVnx 68-70Gy/30-33f, 5d/w,6-7w, during which, every patient would receive 2 cycles of DDP+Envafolimab as concurrent chemotherapy. Then patients would receive Envafolimab every 3 weeks for maintenance treatment for a year, until disease progression or intolerance of treatment. . We aim to evaluate the three years progression free survival of these patients by the combination of Envafolimab with curative chemoradiotherapy.
The objective of this study is to construct a noninvasive approach using 68Ga-THP-APN09 PET/CT to detect the PD-L1 expression of tumor lesion in patients with lung cancer, melanoma and other solid tumor to identify patients benefiting from anti-PD-(L)1 treatment.
The study aims to evaluate the efficacy and safety of PD-L1 antibody combined with the CTLA-4 antibody in patients with advanced ICC who progressed after standard treatment.
Little is known about the characteristics of genetic mutation in a large multi-gene panel in epithelial ovarian cancer. This study is to explore the targeted genetic mutations via a multi-gene panel, which consists of more than 500 hundred genes. The mutation characteristics are to be revealed in single nucleotide variants, copy number variations, insertion-deletion variations, and genomic structural variations. The total mutation burden (TMB) will be calculated. The status of microsatellite instability, expression of PD-1 and PD-L1 antibodies are also tested. These findings will be studies in association with the patients' prognosis and sensitivity to platinum-based chemotherapy.
Little is known about the characteristics of genetic mutation in recurrent cervical cancer. This study is to explore the targeted genetic mutations via a multi-gene panel, which consists of more than 500 hundred genes. The mutation characteristics are to be revealed in single nucleotide variants, copy number variations, insertion-deletion variations, and genomic structural variations. The total mutation burden (TMB) will be calculated. The status of microsatellite instability, expression of PD-1 and PD-L1 antibodies are also tested. These findings will be studies in association with the patients' prognosis and sensitivity to platinum-based chemotherapy and immunotherapy.
PD-L1 is identified as an important biomarkers for predicting PD-1/PD-L1 inhibitors in advanced Non-Small Cell Lung Cancer. Several previous clinical trials have demonstrated that chemotherapy could enhance the efficacy of PD-1/L1 immunotherapy in NSCLC such as Checkmate-227, Impower-150, Keynote-189, etc. Pre-clincial experiment shows that chemotherapy could increase CD8 TIL infiltration in tumor microenvironment, activate T cell immune reaction. However, it remains unclear whether chemotherapy could affect PD-L1 in advanced NSCLC patients. The present study aims to evaluate whether PD-L1 will change after receiving chemotherapy in advanced NSCLC patients.