View clinical trials related to Malignant Solid Tumor.
Filter by:TGFβ has profound local immunosuppressive and immunoexclusion effects in the tumor microenvironment that are integrally involved in the failure of immune checkpoint inhibitors in some tumors. Preclinical data in a variety of models strongly support the study of AVID200 in patients with treatment-refractory advanced and metastatic malignancies as an approach to reducing immunosuppression/exclusion and increasing the activity of immune checkpoint inhibitors.
This pilot trial studies the side effects of ifetroban in treating patients with malignant solid tumors that are at high risk of coming back after treatment and spreading throughout the body. Platelets are a type of blood cells that help with clotting. Cancer cells stick to platelets and ride on them to get to different parts of the body. Drugs, such as ifetroban, may help these platelets become less "sticky," and reduce the chance of cancer cells spreading to other places in the body.
This is a phase 1 open label, 4 treatment, 4 sequence and 4 period crossover study in subjects with solid tumours no longer responding to, or eligible for standard therapies, and for whom there are no additional standard therapies likely to benefit the subject.
Invariant Natural killer T (iNKT) cells are a unique subset of lymphocytes that express homogeneous TCR recognizing KRN7000 which was up-regulated by many kinds of cancer cells.The hypothesis of the investigators is that immunotherapy strategy of infusion of iNKT cells may resist inflection and decrease the tumor burden and improve overall survival. The purpose of this study is to assess the safety and efficacy of treatment of tuberculosis with malignant solid tumor by infusing of iNKT cells.
Primary Objectives: Dose escalation (Part 1) Part 1A (SAR439459 monotherapy) - To determine the maximum tolerated dose (MTD) and/or maximum administered dose (MAD) of SAR439459 when administered intravenously as monotherapy in adult patients with advanced solid tumors. Part 1B (SAR439459 and cemiplimab combination therapy) - To determine the MTD and/or MAD of SAR439459 administered intravenously in combination with cemiplimab administered intravenously in adult patients with advanced solid tumors. Dose expansion (Part 2) Part 2A (SAR439459 monotherapy) - To determine optimal dose of SAR439459 administered intravenously in adult patients with advanced melanoma who have failed a prior therapy based on anti-PD-1 (programmed cell death-1) or anti-PD-L1. Part 2B (SAR439459 and cemiplimab combination therapy) - To determine the objective response rate (ORR) of SAR439459 in combination with cemiplimab in adult patients with selected advanced solid tumors by evaluation of antitumor response according to Response Evaluation Criteria in Solid Tumors 1.1 (RECIST 1.1). Secondary Objectives: - Pharmacokinetic (PK) profile SAR439459 monotherapy and combined with cemiplimab, PK profile of cemiplimab combined with SAR439459. - Immunogenicity of SAR439459 monotherapy and combined with cemiplimab. Dose escalation (Part 1) - Overall safety/tolerability profile of SAR439459 monotherapy and combined with cemiplimab. - Preliminary recommended phase 2 dose (pRP2D) of SAR439459 as monotherapy or combined with cemiplimab. Dose expansion (Part 2) - Progression free survival (PFS), time to progression (TTP), ORR, and safety of SAR439459 as monotherapy and PFS, TTP, duration of response (DOR), disease control rate (DCR) and safety in combination with cemiplimab. - To confirm the optimal dose of SAR439459 administered in combination with cemiplimab.
This is a two part Phase I/Ib, open-label, non-randomized and multi-center, dose escalation study with a 3+3 design (Part 1) and an expansion cohort at the Maximum Tolerated Dose (MTD)/Recommended Phase 2 Dose (RP2D) (Part 2). If MTD is not reached in Part 1, RP2D will be determined after completion of Part 1 considering safety and tolerability, also beyond the dose limiting toxicity (DLT) period, pharmacokinetic (PK) and pharmacodynamic (PD) results.
The purpose of this study is to prospectively validate treatment benefit of an individualized treatment concept based on molecular profiling (MP) from paraffin-embedded tumor tissue sections obtained before the start of treatment (real time biopsy).
The primary objective of this study is to establish the feasibility and value of physical fitness assessment within patients receiving cytotoxic chemotherapy. If successful, this project will establish the groundwork for physical function assessment in larger cancer clinical trials to assist patient selection and evaluation of toxicity and/or response among trial participants.
This is a phase 1 open-label trial to evaluate the safety, pharmacodynamics and clinical activity of RRx-001 administered in combination with irinotecan. RRx-001 is associated with resensitization to irinotecan in tumors that are previously refractory. This effect has been attributed to the ability of RRx-001 to restore the expression of aberrantly silenced genes, thus re-establishing pathway functions. However, resensitization may have more than one mechanism, among them Pgp pump inhibition and vascular modulation, leading to improved penetration of standard chemotherapy.
The purpose of this study is to assess the safety and tumor-shrinking ability of experimental medication BMS-986179 alone and when combined with Nivolumab, in patients with solid cancers that are advanced or have spread.