View clinical trials related to Kidney Neoplasms.
Filter by:The primary objective of this study is to determine the percentage of patients with a plasma concentration of sunitinib remaining at equilibrium ([Suni]REq) greater than 100 ng / ml (effective concentration according to the current literature).
This is a study to determine the clinical benefit (how well the drug works), safety, and tolerability of combining varlilumab and sunitinib. The study will enroll patients with metastatic clear cell renal cell carcinoma.
The primary concern in complex renal cysts (CRC) with malignant potential is the accurate diagnosis and characterization. Patients with CRC have to undergo frequent imaging surveillance (every 6-12 Mo), in which the progression suggests a neoplastic process. The gold standard for establishing diagnosis and necessity for surgical intervention (i.e. partial nephrectomy) is conventional computer tomography (CT) imaging. Its main drawback is the radiation dose to the body and intravenous contrast media administration, which has a risk of nephrotoxicity. Magnetic resonance imaging (MRI) with special functional sequences (fMRI) and contrast-enhanced ultrasonography (CEUS) allow measuring tissue blood flow and perfusion characteristics without ionizing radiation or nephrotoxic contrast media. To compare the diagnostic accuracy, sensitivity and specificity of CEUS/functional MRI versus the gold standard CT, 60 patients with CRC will be evaluated using all these 3 modalities. The main hypothesis is that fMRI and CEUS have equal accuracy with CT regarding diagnosis and classification of CRC lesions.
This clinical trial studies a type of ultrasound called robot-assisted laparoscopic high-intensity focused ultrasound for performing thermal ablative therapy, or sound wave therapy, in treating patients with small kidney masses undergoing partial removal of the kidney. The robot-assisted ultrasound probe takes images of the kidney to help doctors locate the mass. The probe then uses high frequency sound waves to target and ablate (or destroy) the kidney mass, which may be a cancerous tumor or benign tissue. Surgery is then performed to remove the part of the kidney with the mass. Robot-assisted laparoscopic high-intensity focused ultrasound for thermal ablative therapy may be safer and help doctors see the tumor better when performing kidney surgery.
This is an open label, multi-institutional, single arm study of dose escalation phase Ib cohort, followed by a phase II cohort of anti-PD-1 antibody MK-3475 in combination with bevacizumab. No randomization or blinding is involved.
Retrospective studies indicate that active surveillance for clinically localized, small renal masses (cT1a, <=4cm) is safe. It is our hypothesis that active surveillance is safe and efficacious when compared prospectively to patients undergoing immediate intervention for their small renal mass.
The purpose of this study is to investigate the safety and efficacy of irreversible electroporation (IRE) for unresectable renal tumors.
The investigators will determine the cancer risk in organ transplant recipients compared to the general population with the help of statistical analysis. Secondly the investigators will try to characterize the different cancer types.
All patients will receive IL-2 (14 planned doses with an additional cycle 14 days after the first). Responding patients with regressing disease are eligible for up to 6 IL-2 cycles. Patients assigned to SBRT arm will receive two doses of SBRT on the Wednesday and Friday before the Monday on which IL-2 starts.
Background: Electroporation or electropermeabilisation is a novel technique with the potential to overcome the main disadvantages of thermal ablation. It utilizes electric pulses, traveling between two or more electrodes, to create 'nanopores' in the cell membrane. If the applied current reaches a certain threshold these 'nanopores' become permanent resulting in cell death. The use of electric current means that IRE is not susceptible to 'thermal sink' leading to consistent ablation results. IRE ablation targets the cell membrane, sparing tissue architecture and minimizing damage to blood vessels, nerves and the renal collecting system. The first in human studies have proven the safety of IRE for the ablation of small renal masses. However the efficacy of IRE through histopathological examination of an ablated renal tumour has not yet been studied, compromising the correct and scientific evaluation of this new technology. Primary Objectives: - To determine the efficacy of IRE ablation of renal masses , measured by histopathologic examination of the targeted tumour. - To determine the safety of IRE ablation of renal masses, by evaluating device and procedural adverse events. Secondary Objectives: - To evaluate the efficacy of MRI in the imaging of ablation success, extend of the ablation zone, one and four weeks post IRE ablation. - To evaluate the efficacy of CEUS in the imaging of ablation success, extend of the ablation zone, one and four weeks post IRE ablation. Population: 10 patients, age ≥ 18 years, presenting with a solid enhancing mass, who are candidates for radical nephrectomy. Intervention: Eligible patients will receive IRE ablation of their renal mass 4 weeks prior to radical nephrectomy. Follow-up at one and four weeks post IRE will be performed using MRI and CEUS imaging. After radical nephrectomy histopathological examination will be performed to evaluate IRE ablation success.