View clinical trials related to Advanced Malignant Solid Tumor.
Filter by:The purpose of this first-in-human study is to find out if BNT314 is safe when it is used alone and when it is used together with another antibody cancer drug (pembrolizumab) in patients with different types of cancer. Patients will receive either BNT314 alone or BNT314 combined with pembrolizumab. Phase 1 of the study consists of a dose escalation part, and a safety run-in (SRI) and expansion part: Dose escalation: In this part of the study, patients will be assigned to multiple dose levels (DLs) of BNT314 given alone. By escalating the dose with a small group of patients, the Maximum Tolerated Dose (MTD) which is the highest dose with acceptable safety and manageable side effects, or the maximum administered dose (MAD) will be investigated. At the end of this part, the Recommended Phase 2 Dose (RP2D) which is the dose to be tested in Phase 2 will be decided. Safety Run-In: In this part of the study, BNT314 will be combined with pembrolizumab. Before starting the expansion part, the combination will be tested in another small group of participants (12-28) to find out how safe this combination is. Expansion: In this part of the study, BNT314 will be combined with pembrolizumab. After the SRI is completed, the study will continue with the expansion part where up to 199 participants with different types of cancer will be included. The Phase 2 part of the study will be introduced via an amendment to the study protocol.
VG2025 is a Recombinant Human IL12/15 Dual-Regulated Oncolytic HSV-1 Injection. This Phase I study will be conducted in herpes simplex virus (HSV) -seropositive subjects with advanced malignant solid tumors that are refractory to conventional therapies. This is an open label study to determine the safety and tolerability of VG2025, and recommended dose of VG2025 for Phase II trials.
This is a Phase I/IIa Clinical Trial to Evaluate the Safety,Tolerability,Pharmacokinetics and Preliminary Effectiveness of IAE0972 in Patients With Advanced Malignant Solid Tumors.
This research study is evaluating a new type of personalized neoantigen cancer vaccine(iNeo-Vac-P01)combined with anti-PD-1 antibody and radiofrequency ablation as a possible treatment for patients with advanced solid tumors. The primary objective of this trial is to evaluate safety, tolerability and immunogenicity of iNeo-Vac-P01 in combination with anti-PD-1 and radiofrequency ablation, so as to provide a new personalized therapeutic strategy for patients. It is known that cancer patients have mutations (changes in genetic material) that are specific to an individual patient and tumor. These mutations can cause the tumor cells to produce proteins that appear very different from the body's own cells. It is possible that these proteins used in a vaccine may induce strong immune responses, which may help the participant's body fight any tumor cells that could cause the cancer to come back in the future. The study will examine the safety of the vaccine when given at several different time points and will examine the participant's blood cells for signs that the vaccine induced an immune response.
VG161 is a recombinant human-IL12/15/PDL1B oncolytic HSV-1 Injectable. This Phase I study will be conducted in HSV-seropositive subjects with advanced malignant solid tumors that are refractory to conventional therapies. This is an open label study to determine the safety and tolerability of VG161, and recommended dose of VG161 for Phase II trials.
This main aim of this trial will be to study the blood levels (known as pharmacokinetics) of the study drug tazemetostat. The pharmacokinetics of the study drug in participants with advanced solid tumors and moderate or severe hepatic (liver) impairment will be compared with participants with advanced malignancies and normal hepatic function. An advanced malignancy is a cancer that has recurred (come back) after prior treatment or hasn't controlled with treatment. The trial will also study the safety of the study drug in participants (how well it is tolerated).
The purpose of this study is: 1) to evaluate the effectiveness and extended safety of the Plasmodium immunotherapy for the advanced malignant solid tumors. 2) To explore the safe and effective course of the Plasmodium immunotherapy for the advanced malignant solid tumors. 3) To explore the possible indications of Plasmodium immunotherapy for advanced malignant solid tumors. The treatment will last 5-10 weeks from the day of successful infection and will be terminated by antimalarial drugs.
The purpose of this study is to see the safety and efficient of neoantigen reactive T cells (NRTs) combined with programmed cell death-1(PD-1) inhibitor(SHR-1210)in the treatment of Chinese patients with advanced refractory solid tumors.