View clinical trials related to Neoplasms.
Filter by:This is a Phase I, first in human, open-label, non-randomized, multicenter study to evaluate the safety, tolerability, pharmacokinetics, pharmacodynamics, preliminary efficacy and establish a recommended dose of HG381 administered intravenously (IV) alone in subjects with advanced solid tumors.
Leflunomide in patients with PTEN-null advanced solid tumors. Objectives are to determine the safety and tolerability and the MTD of leflunomide in patients with PTEN-null advanced solid malignancies and to assess preliminary evidence of clinical activity of leflunomide in patients with PTEN-null advanced solid malignancies.
This is an open-label, two-part Phase 2 study investigating CGT9486 for the treatment of patients with Advanced Systemic Mastocytosis (AdvSM), including patients with Aggressive SM (ASM), SM with Associated Hematologic Neoplasm (SM-AHN), and Mast Cell Leukemia (MCL).
Real-world studies on long-term prognosis in patients who underwent anti-tumor treatments during hospitalization from a hospital-based cancer registry in china.
Study design: Prospective, single-center, phase IIa clinical trial; Primary endpoint: Recurrence free survival; Secondary endpoints: Safety, overall survival; Main characteristics of patients: Liver malignancy, required (extended) hemihepatectomy, insufficient liver reserve; Study approaches: The experimental group is treated with ALPPS combined with Tislelizumab, and the control group was treated with ALPPS; Sample size: 20 (10:10); Study process: In experimental group, patients who meet the inclusion criteria will receive ALPPS stage I surgery, treated with Tislelizumab 2-4 weeks after stage I surgery, and receive ALPPS stage II surgery 2-4 weeks after Tislelizumab treatment, and treated with Tislelizumab q3W 6-12 months after stage II surgery; In control group, patients who meet the inclusion criteria will receive ALPPS stage I surgery, and receive ALPPS stage II surgery 3-6 weeks after stage I surgery.
A phase I/II study to examine the safety, tolerability, pharmacokinetics and efficacy of XZP-5955 tablets in patients with advanced solid tumors harboring NTRK or ROS1 gene fusion
This trial studies the use of a special type of computed (CT) scan called dual energy CT in detecting gastrointestinal carcinoid tumors. CT is an imaging technique that uses x-rays and a computer to create images of areas inside the body. Dual energy computed tomography is a technique used during routine CT scans to help obtain and process the image after the scan is complete. Doctors want to learn if dual energy computed tomography can help improve the detection of carcinoid tumors during routine CT scans.
The purpose of this project is to develop a comprehensive database of genomic, transcriptomic, molecular, and clinical characteristics of oncology patients to discover, define, and develop genomic and transcriptomic markers to improve future clinical outcomes across cancer types
The purpose of this study is to evaluate the safety, tolerance, Dose-Limiting Toxicity (DLT), Maximum tolerated dose (MTD) and/or Recommended Phase 2 Dose (RP2D) of ES102 (OX40 agonist) in combination with JS001 (anti-PD-1 checkpoint inhibitor) in patients with advanced solid tumors.
Recent pre-clinical studies strongly suggest that due to dysfunctional vasculature and blunted sympathetic constriction in the tumor, tumor blood flow is increased even by 200% compared to resting values. However, to the best of our knowledge these blood flow aspects have never been addressed clinically. Therefore, this research aims at investigating tumor blood flow response to exercise in human cancer patients. To address this goal, in total twenty (20) newly diagnosed breast cancer and eight (8) lymphoma patients will be recruited for the present acute exercise and tumor perfusion clinical trial. To study the effect of acute physical exercise on tumor blood flow and its heterogeneity, 30 minute bicycle exercise will be used to exercise these patients. Tumor blood flow will be measured by positron emission tomography at rest before and after the exercise. If the hypothesis of increased blood flow in response to exercise will be detected, this project has the potential to increase the basic physiological and mechanistic understanding of tumor microvasculature function in humans, which is also clinically highly relevant and can have long-lasting influences in the field in the future. Thus, the results from the project can be a breakthrough for cancer treatment, its mechanistic arguments, and thus renewal of evidence-based medicine and patient care.