9 Clinical Trials for Various Conditions
This is a phase Ib study with a safety lead-in (n = 6 per arm) evaluating combinatorial DPV-001 + sequenced PD-1 blockade, with or without GITR agonist, in recurrent or metastatic HNSCC.
This is a phase II study of the combination of the GITR agonist monoclonal antibody INCAGN01876, the anti-PD1 monoclonal antibody INCMGA00012, and stereotactic radiosurgery (SRS) for recurrent Glioblastoma (GBM). The investigators hypothesize that the proposed regimen will be safe and stimulate a robust anti-tumor immune response and result in improved tumor responses.
TRX518-001 is an open label, non-randomized single group assignment, Phase 1 single dose escalation study in adults with biopsy proven unresectable Stage III or Stage IV melanoma or other solid tumor malignancies. Part A: The study objectives are to determine the safety, tolerability, pharmacokinetic (PK) and pharmacodynamic (PD) profiles of TRX518 and to define the maximum tolerated dose at which there are tolerable side effects and/or maximum PK/PD parameter changes. Subjects will be assigned to a cohort in the order screening is completed. Dose will depend upon the cohort in which a subject is enrolled and cohorts will be dosed consecutively by ascending dose. Part A has been completed. Part B: A Dose-Escalation Study of Multi-dose TRX518 Monotherapy with objectives including characterization of the safety, tolerability, and pharmacokinetics, as well as, evaluate for evidence of anti-tumor activity and assess TRX518 immunogenicity. Part C: An Expansion Cohort of Multi-dose TRX518 Monotherapy at the Maximum Tolerated Dose
This study will try to identify markers of immune activity in uveitis patients that correlate with the state of disease activity. Uveitis is a group of inflammatory eye diseases that can cause vision loss. The study will examine whether certain substances in the blood can predict a reactivation of disease before it occurs, and how therapy may influence the activity of these substances. Previous studies have found some possible markers called GITR (glucocorticoid induced TNF related family receptor), SOCS (suppressors of cytokine secretion), and interleukin-15. Markers such as these may help guide physicians in safely tapering medicines in uveitis patients. Patients 18 years of age and older with sight-threatening uveitis may be eligible for this study. Participants are slowly tapered off their medicines when their disease is stable and there is no evidence of significant inflammation. If the disease remains inactive during tapering, all drug therapy is eventually stopped. Patients have eye examinations about every 1 to 3 months when the disease is quiet and every 2 to 4 weeks during flare-ups. Blood samples are drawn 2 to 3 times a year. In addition, patients may have the following procedures if needed: * Eye photography: Eye drops are given to enlarge the pupils for a thorough eye examination, and a special camera is used to take photographs. * Fluorescein angiography: This test checks for abnormalities of eye blood vessels. A yellow dye is injected into an arm vein and travels to the blood vessels in the eyes. Pictures of the retina are taken with a special camera that flashes a blue light into the eye. The pictures show if any dye has leaked from the vessels into the retina, indicating possible abnormalities.
The purpose of this study is to determine the safety, tolerability, and efficacy of INCAGN01876 when given in combination with immune therapies.
The purpose of this study is to determine the safety, tolerability, and efficacy of INCAGN01876 when given in combination with immune therapies in subjects with advanced or metastatic malignancies.
The purpose of this trial is to explore the clinical utility of two investigational antibodies in patients with advanced cancer or lymphomas. This is a multi-center, open-label Phase I/Ib study. The study consists of two dose escalation parts and two dose expansion parts testing GWN323 as a single agent or GWN323 in combination with PDR001. The dose escalation parts will estimate the MTD and/or RDE and test different dosing schedules. The dose expansion parts of the study will use the MTD/RDE determined in the dose escalation part to assess the activity, safety and tolerability of the investigational products in patients with specific types of cancer and lymphomas. Approximately 264 adult patients with advanced solid tumors or lymphomas will be enrolled.
This was an open-label, non-randomized Phase 1/2 safety study of INCAGN01876 in participants with advanced or metastatic solid tumors that was conducted in 2 parts. Part 1 is dose escalation and safety expansion which determines the optimal dose and maximum number of tolerated doses. Part 2 is dose expansion in which Part 1 recommended dose will be evaluated.
Our proposed study is designed to test the safety of a new vaccine against melanoma. The induction of immune activity against cancers such as melanoma is a promising approach to cancer treatment, but to date, only a few clinically significant immune responses have been seen following vaccine therapy. This is an important problem, since there are very limited treatment options for patients with metastatic melanoma (melanoma that has spread to lymph nodes and organs). Studies suggest that monoclonal antibodies (mAbs) that block inhibitory receptors on immune cells can enhance the immune responses against cancer, but the intravenous injection of such mAbs has caused severe side effects in animals and humans. In our laboratory, we have developed a method to deliver mAbs and other proteins that block such inhibitory receptors locally at the site where immune responses against melanoma proteins are stimulated by vaccination, enhancing anti-melanoma immunity while avoiding the side-effects associated with intravenous injection of these immune modulators. This is achieved by loading dendritic cells, a type of immune cell, with RNA that encodes the immune modulator. The RNA-loaded dendritic cells then make the immune modulatory proteins and release them locally. By mixing these dendritic cells with additional dendritic cells loaded with melanoma proteins, the immune modulators are released at the site where anti-melanoma immune cells are stimulated. In this phase I trial, subjects with metastatic melanoma will undergo the process of leukapheresis, in which white blood cells are removed from the body. Monocytes, a type of immune cell, will then be purified from the white blood cells and cultured under conditions that will change them into dendritic cells. Half of these dendritic cells are then loaded with melanoma antigen RNA, which will lead to the production of melanoma antigen proteins within the dendritic cells. The remaining half of the dendritic cells will be either untreated or loaded with RNA encoding immune modulators so that these dendritic cells will release immune modulators at the site of vaccination. These dendritic cells will be mixed with the melanoma antigen-loaded dendritic cells and injected as a vaccine into lymph nodes. Each subject will receive six weekly injections of their own dendritic cells. Safety and toxicity will be closely monitored. In addition, immune responses against melanoma, as well as clinical responses, will be assessed.