View clinical trials related to Neoplasms.
Filter by:This is a single arm, open label, multi-center and fist in human dose escalation study, to evaluate the safety, tolerability, pharmacokinetics and anti-tumor activity in patients with advanced and metastatic solid tumor.
This phase III trial compares the effect of open thoracic surgery (thoracotomy) to thoracoscopic surgery (video-assisted thoracoscopic surgery or VATS) in treating patients with osteosarcoma that has spread to the lung (pulmonary metastases). Open thoracic surgery is a type of surgery done through a single larger incision (like a large cut) that goes between the ribs, opens up the chest, and removes the cancer. Thoracoscopy is a type of chest surgery where the doctor makes several small incisions and uses a small camera to help with removing the cancer. This trial is being done evaluate the two different surgery methods for patients with osteosarcoma that has spread to the lung to find out which is better.
This is a Phase I, First-In-Human, open label, dose escalation study to evaluate the safety, tolerability, pharmacokinetics, and preliminary anti-cancer activity of PUR001, an anti-CD39 monoclonal antibody, in adult patients with advanced solid tumors, as monotherapy. A "3+3" design will be used to determine MTD and RP2D. .
T Cell Receptor-engineered T-cell therapy (TCR T-cell therapy) offers a potentially transformative approach to treating cancer, but is currently limited by the lack of known targets (Maus and June, 2016; Ping et al., 2018). Arguably the most clinically meaningful way to discover new targets and TCRs for TCR T-cell therapy is to study the tumor-infiltrating lymphocytes of patients that are actively responding to immune checkpoint inhibitor (ICI) therapy. These T cells are clonally expanded as a result of checkpoint inhibition and are responsible for the patient's clinical response. The goal of this study is to acquire tumor and blood samples from up to 200 patients with solid tumor malignancies who respond to ICI therapy. T cells will be isolated from these samples and the targets of their TCRs determined using TScan's genome-wide, high-throughput target ID technology. The expected outcome of this study is the discovery of a collection of new targets for TCR T-cell therapy, along with associated TCRs that will then be developed as novel therapies for patients with similar malignancies.
The purpose of this research is to evaluate the activity and safety of lurbinectedin in adult patients with advanced Gastrointestinal Malignancies with DNA repair mutations.
Phase Ib/II open label, multicenter study to evaluate the efficacy and safety of AK112 (anti-PD-1 and VEGF bispecific antibody) combined with AK117#AntiCD47 Antibody# in advanced malignant tumors
Part 1 (Phase Ia): This is a dose escalation, 3 + 3 design study, to evaluate the safety and tolerability, and to determine the RP2D of YL-13027 when administered b.i.d. in patients with advanced solid tumors. Up to 4 cohorts of 3-6 patients each will be treated in part 1 of the study. One cycle is 28 days. Part 2: This is a dose expansion phase to further evaluate the safety, tolerability and preliminary anti-tumor activity of YL-13027 at the RP2D.
This study evaluates immunologic response following COVID-19 vaccination in children, adolescents, and young adults with cancer. Vaccines work by stimulating the body's immune cells to respond against a specific disease. The immune response produces protection from that disease. Effects from cancer and from treatments for cancer can reduce the body's natural disease fighting ability (called immunity). Factors such as vaccine type, timing of vaccine dosing related to treatment for cancer and number of vaccine doses or "boosts" (extra vaccine shots) may strengthen or diminish the body's protective immune response. This study may help researchers learn more about how the body's immune system responds to the COVID-19 vaccine when the vaccination is given during or after cancer treatment.
This is a single-arm, open-label, exploratory study to evaluate safety and efficacy of oncolytic virus injection(RT-01) in combination with PD-1 inhibitor (Nivolumab) in patients with advanced solid tumors. The purpose of this study is to evaluate the safety and tolerability, antitumor activity, The immunoreactivity, The immunogenicity, pharmacokinetics and virus shedding of RT-01 in combination with PD-1 inhibitor.
Cancer-related fatigue (CRF) and insomnia are prevalent among cancer patients and have been linked to de-creases in quality of life and poorer overall survivorship. Currently, the mechanisms underlying CRF are not well understood, which has led to treatments that are only moderately effective. In addition, when compared to CBT-I in the general population, the treatment outcomes in CBT-I with cancer patients are subpar and, as such, this study will evaluate whether dose of CBT-I is effective in ameliorating CRF.