View clinical trials related to Renal Cell Carcinoma.
Filter by:detection of Survivin expression in renal cell carcinoma and correlate this expression to tumor grade and stage.
Study HC-404-FCP-2011 is a first in human, Phase 1a, multi-center, open-label study to establish the maximum tolerated dose (MTD) and evaluate the safety and tolerability of oral dosing of HC-5404-FU in a dose-escalating fashion. Up to 36 qualified subjects at 3 to 5 US sites, who have specific tumor types of renal cell carcinoma (RCC), gastric cancer (GC), metastatic breast cancer (MBC), small cell lung cancer (SCLC), and other solid tumors (e.g., non-small cell lung cancer, colorectal cancer, carcinoma of unknown primary) with the exception of rapidly progressing neoplasms (e.g., pancreatic cancer, glioblastoma, hepatocellular carcinoma) will receive HC-5404-FU. Every effort will be made to ensure approximately 50% of all subjects enrolled will be subjects with RCC and GC. The starting dose level is 25 mg twice daily (BID), escalating to 50, 100, and 200 mg BID as safety allows, following the Bayesian Optimal Interval (BOIN) design. The safety monitoring committee (SMC) will evaluate the DLTs and cumulative safety and PK data at the end of each cohort. Based on the SMC recommendations after a comprehensive review of PK and safety data for 200 mg BID dose, higher dose levels will be evaluated, starting with 400 mg BID. The dose will escalate to 600 mg and then 900 mg following the BOIN design starting with 1 subject at each escalated dose, until the MTD is reached or the sponsor or SMC declares the dose most appropriate for clinical development. This Phase 1a will be expanded into a Phase 1b/2a study through a protocol amendment and will then assess the dose and tumor type(s) selected in Phase 1a as the most appropriate for further clinical development. Subjects will be dosed until unacceptable toxicity, disease progression per immune-related Response Evaluation Criteria in Solid Tumors (iRECIST), subject withdrawal, any other administrative reasons, or after 2 years of treatment, whichever occurs first. Efficacy will be assessed via Response Evaluation Criteria in Solid Tumors 1.1 (RECIST 1.1); computed tomography (CT) scans will be conducted every 6 weeks. Safety, including occurrence of dose-limiting toxicities (DLTs), pharmacokinetics (PK), and biomarker parameters will also be assessed.
This study is a survey in Japan of Cabozantinib tablets used to treat people with a type of kidney cancer called renal cell carcinoma. The study sponsor will not be involved in how the participants are treated but will provide instructions on how the clinics will record what happens during the study. The main aim of the study is to check for side effects from Cabozantinib. During the study, participants with renal cell carcinoma will take Cabozantinib tablets according to their clinic's standard practice. The study doctors will check for side effects from Cabozantinib for 26 weeks.
One-arm clinical trial was adopted in this study. The surgeon performed remote urological surgery for patients through domestically produced "MicroHand" surgical robot system (Shandong Weigao Co., Ltd). The "MicroHand" surgical robot system consists of two physically separated subsystems named the "surgeon console" and "patient side cart". The surgeon console includes a stereo image viewer, two master manipulators, a control panel and several foot pedals. The patient side cart includes a passive arm that can slide in the up-down direction and be adjusted forward and backward, a swivel head that can rotate around the vertical axis, and three slave arms (one for the endoscopic camera and the other two for surgical instruments). The surgeon console (based in Qingdao) takes the surgeon's input and translates manipulation into a control signal. After network transmission, the patient side cart (based in other cities in Shandong Province) translates the control signal into actual instrument manipulation. The 3D images captured by the endoscopic camera were simultaneously sent back to the screen of the surgeon console as visual feedback. Data between the surgeon console and the patient side cart were transmitted through a 5G network. The safety and effectiveness of the robotic system in remote clinical diagnosis and treatment were verified by the main judgment criterion and secondary judgment criterion. Fifty patients with urinary diseases are planned to enroll in the clinical trial. Main judgment criterion: The robot-assisted telesurgery did not transfer to other types of surgery, such as open surgery or normal robot-assisted surgery. Secondary judgment criterion: operative time, blood loss, postoperative pain, preoperative adjusting time and hospitalization time. Patient enrollment: This trial aims to explore the safety and effectiveness of the domestically produced robotic system in remote clinical diagnosis and treatment through 5G network. Fifty patients with urinary diseases are planned to enroll in the clinical trial.
To assess how dose reductions or treatment interruptions related to axitinib can be implemented to manage and resolve adverse events occurring among patients with advanced renal cell carcinoma treated with first-line axitinib in combination with avelumab or pembrolizumab
The present study will aim to describe and understand, in the real-world, the clinical characteristics, treatment patterns and outcomes of advanced renal cell carcinoma (aRCC) patients treated with cabozantinib or axitinib monotherapy in England using the existing data source, Cancer Analysis System (CAS).
One-arm clinical trial was adopted in this study. The surgeons performed remote urological surgery for patients through domestically produced "MicroHand" surgical robot system (Shandong Weigao Co., Ltd). The "MicroHand" surgical robot system consists of two physically separated subsystems named the "surgeon console" and "patient side cart". The surgeon console includes a stereo image viewer, two master manipulators, a control panel and several foot pedals. The patient side cart includes a passive arm that can slide in the up-down direction and be adjusted forward and backward, a swivel head that can rotate around the vertical axis, and three slave arms (one for the endoscopic camera and the other two for surgical instruments). The surgeon console (based in Qingdao) takes the surgeon's input and translates it into a control signal. After network transmission, the patient side cart (based in Anshun) translates the control signal into actual instrument manipulation. The 3D images captured by the endoscopic camera were simultaneously sent back to the screen of the surgeon console as visual feedback. Data between the surgeon console and the patient side cart were transmitted through a 5G network. The safety and effectiveness of the robotic system in remote clinical diagnosis and treatment were verified by the main judgment criterion and secondary judgment criterion. Six patients are planned to enroll in the clinical trial. Main judgment criterion: The robot-assisted telesurgery did not transfer to other types of surgery, such as open surgery or normal robot-assisted surgery. Secondary judgment criterion: operative time, blood loss, postoperative pain, preoperative adjusting time and hospitalization time. Patient enrollment: This trial aims to explore the safety and effectiveness of the domestically produced robotic system in remote clinical diagnosis and treatment through 5G network. Six patients are planned to enroll in the clinical trial, including 2 patients with adrenal tumor, 2 patients with bladder cancer and 2 patients with renal cell carcinoma.
The purpose of this study is in Part 1, to determine the safety of nivolumab, bempegaldesleukin (BEMPEG: NKTR-214), and Tyrosine Kinase Inhibitor (TKI) combination.
This trial aims to prospectively assess the safety and efficiency of Fluzoparib in metastatic non-clear cell renal cell carcinoma
RCC (Renal Cell Carcinoma) is the most common form of kidney cancer, accounting for 2-3% of all adult malignancies and for 90% of all kidney cancers. The incidence of RCC has steadily increased over the past two decades, showing a plateau in recent years. Many patients with RCC remain asymptomatic until late disease stages and other patients have disease at diagnosis (metastatic RCC or mRCC). Recently, the tyrosine kinase inhibitor (TKI) cabozantinib was approved as a first-line therapy for patients with advanced clear-cell RCC (ccRCC). Cabozantinib was initially approved for patients previously treated with antiangiogenic therapy based on the phase 3 METEOR study, which demonstrated a clinical benefit compared with everolimus. Immunotherapy has been also developed in ccRCC. The frontline treatment paradigm for ccRCC has evolved, particularly for intermediate-/poor-risk patients, with the recent addition of cabozantinib and nivolumab/ipilimumab (immunotherapy), but overall survival data are needed to understand their benefit-to-risk profiles compared with established therapies. In October 2016, the Spanish Agency of medicines (AEMPS) granted the temporary Authorization for special use to Cabometyx® 20/40/60 mg within a Managed Access Program (MAP) for the treatment of advanced RCC in adults following prior VEGF-targeted therapy (Vascular Endothelial Growth Factor targeted therapy). The MAP allows the possibility of using a medicinal product which is not yet commercially available or approved. By the end of the MAP period, on July 2017, 136 patients had been included by 61 centers who received at least one dose of Cabometyx® for the treatment of advanced RCC. Since then, Cabometyx® 20/40/60 mg was made commercially available for the treatment of advanced RCC in adults following prior VEGF-targeted therapy. After the commercialization of Cabometyx® in July 2017 in Spain, the inclusion of new patients in the MAP was closed but those patients that were already included continued receiving Cabometyx® free of charge until clinical decision. In July 2018, the European Commission approved a new indication for adult patients previously untreated with intermediate or poor risk. Based on this rationale, the aim of this study is to obtain safety and effectiveness information regarding the use of cabozantinib in a non-selected RCC population, both in patients that received this agent under the MAP or under routine clinical prescription (real-world [RW]).