View clinical trials related to Kidney Neoplasms.
Filter by:This is a prospective, single-arm, open-label, non-interventional, multicenter, post-marketing surveillance to assess the safety and effectiveness of Zirabev(Bevacizumab biosimilar) in domestic patients with non-small cell lung cancer, metastatic colorectal cancer, metastatic breast cancer, advanced or metastatic kidney cancer, cervical cancer, epithelial ovarian cancer, fallopian tube cancer, primary peritoneal cancer or glioblastoma multiforme.
The G-NeSS Registry prospectively collects data on clinical and outcome variables from patients undergoing partial nephrectomy for renal masses. Analyses of data aims at identifying key factors determining the quality of surgical care in this patient population.
The incidence of renal cysts is rising due to increased abdominal imaging. Renal complicated cysts have been traditionally classified according to the Bosniak classification, which distinguishes cystic masses by specific features of walls and septa. The categories I and II are benign and class IIF most probably benign but needs a short radiological follow-up. Categories III and IV have been traditionally operated due to the increased risk of renal cell carcinoma. However, recently published studies show that approximately 50% of the operated Bosniak III cystic masses are benign, which means that half of the cases are overtreated by surgery. It has also been shown that surgical pathology of stable Bosniak IIF cysts is malignant in less than 1%, while the cysts, which are upgraded to higher Bosniak classes will show malignant surgical pathology in 85%. So far, there is lack of prospective data on active surveillance in Bosniak III cystic masses. The aim of the study is to compare active surveillance and surgery in patients with Bosniak III renal cystic masses. Patients will be randomized in active surveillance or immediate surgical excision of a cystic mass. In the active surveillance group, patients are followed according to the study protocol for 10 years and treated with delayed surgery if the cystic mass upgrades into Bosniak IV/solid, becomes symptomatic or grows over a preclassified threshold. The primary objective is to compare surgical pathology between patients treated with immediate surgery versus delayed surgery. According to recent retrospective data, active surveillance of Bosniak III cystic masses is reasonable and oncologically safe. Therefore a prospective randomized controlled trial is needed to get high level evidence to support a change in the treatment strategy. The study may significantly reduce unnecessary operations performed in patients with Bosniak III cystic masses.
Introduction The current limitations of renal cell carcinoma (RCC) imaging form a major deficit in the diagnostic pathway. Contrast Enhanced UltraSound (CEUS) has the potential to improve RCC detection and localization significantly. CEUS image interpretation is however difficult and subjective. To overcome these difficulties a CEUS quantification technique, Contrast-enhanced Ultrasound Dispersion Imaging (CUDI), has been developed in cooperation with the Eindhoven University of Technology (TU/e). Study objective Primary objective: To assess the sensitivity and specificity of CUDI for recognizing malignant tissue in vivo. Study population All patients scheduled for a partial or radial nephrectomy in the Amsterdam UMC (Amsterdam Universitair Medische Centra) Study Procedure This study is a prospective in-vivo study in patients scheduled for a partial or radical nephrectomy for a suspicious RCC in which we will perform CEUS imaging. The (partial) nephrectomy is part of standard care for patients with a suspicious lesion in the kidney. The additional ultrasound with infusion of an ultrasound contrast agent during ultrasound scanning is performed for the purpose of the study. CEUS imaging will be performed right before (partial) nephrectomy, with the patient being under general anesthesia. The CEUS and CUDI parametric maps will be interpreted by Investigator A in a blinded fashion with suspicious lesions each delineated. The (partial) nephrectomy will be performed by a qualified urologist, and the analysis of the histological specimens will be performed by a qualified pathologist. Sensitivity and specificity for CUDI will be calculated for all patients receiving a (partial) nephrectomy in which the tissue is sent for pathology. Benefits Currently, most renal tumors are diagnosed by abdominal US, CT or MRI. Renal tumors are classified as cystic or solid lesions on imaging. The most important criteria for differentiating malignant lesions is the presence of enhancement after administration of contrast for CT or MRI in several different phases (4 phases CT-scan). Enhancement in renal masses is determined by comparing Hounsfield units before and after administration of contrast. A change of 15 or more Hounsfield units demonstrates enhancement. Specificity and sensitivity for detecting RCC are around 75% and 88% for CT, and around 89% and 87.5% for MRI, respectively. Both CT and MRI can objectify a contrast-enhancing mass, suspicious for RCC, however, they cannot reliably distinguish a benign lesion (such as an oncocytoma or angiomyolipoma) from a malignant renal neoplasm. For that reason, patients are currently undergoing an RTB (renal tumor biopsy) to objectify pathology for deciding if treatment is necessary or not. Recent literature suggests up to 30% benign pathology after partial nephrectomy implicating overtreatment. RTB has been gradually introduced and increasingly used, however, an RTB is not without risks. Bleeding is the most documented complication. Recently even tumor tract seeding has been under discussion. Improving imaging by using CUDI for differentiating benign from malignant lesions instead of performing an RTB could prevent those risks for patients. Risk assessment There is a small risk of contrast-related adverse events (AE) for participants. After use in millions of patients, AE to the ultrasound contrast agent appear to be transient, mild and rare, and mostly consist of transient alteration of taste, local pain at the injection site and facial or general flush. In some cases, a mild allergic reaction is described. Patients will be informed of the risk during contrast exposure, and it will be described in the patient information file.
This is a single-arm phase II clinical trial to evaluate the initial efficacy and safety of toripalimab combined with axitinib as neoadjuvant therapy for advanced/metastatic non-clear cell renal cell carcinoma
French patients with nephroblastoma (Wilms tumour, WT) have been treated for > 40 years according to International Society of Paediatric Oncology (SIOP) protocols with currently 267 centres across 28 countries collaborating internationally within the SIOP Renal Tumour Study Group (RTSG). Over the last decades more than 10,000 children have been prospectively enrolled in SIOP WT studies and trials. This has resulted in more standardised diagnostic procedures, improved risk stratification, and adjusted treatment recommendations for most renal tumours. The treatment of patients with renal tumours according to SIOP protocols include preoperative chemotherapy, surgery (tumour-nephrectomy + node-picking ± metastasectomy) followed by risk- and stage-based postoperative chemotherapy ± radiotherapy. Central pathology review is nowadays routinely performed in order to prevent misclassification of stage and histology risk group. The current SIOP 2001 protocol has come to an end with as major achievement the scientific proof of omitting doxorubicin in stage II and III patients with as a consequence less risk of sequelae. Moreover, in the SIOP 2001 protocol, several tumour biological aspects have been assessed that seem to interfere with outcome (chromosomal gain of 1q, or loss of 1p and 16q, blastemal residual volume). Chromosomal 1q gain is considered to be present in 25-35% of patients with nephroblastoma with a negative impact on event-free survival (EFS) in retrospective analyses. These biological aspects will be studied prospectively as a primary objective in the new SIOP RTSG 2016 UMBRELLA protocol that integrates diagnostics, treatment and follow-up guidelines as well as several research projects. The main mission of the International Society of Paediatric Oncology (SIOP) Renal Tumour Study Group (RTSG) is to increase survival and to reduce acute treatment toxicity and late effects in all children diagnosed with any renal tumour. In this context, SIOP RTSG is aiming to offer all these patients the same standardized high quality diagnostics and treatment, independent of the tumour type. The new SIOP RTSG 2016 integrated diagnostic and research UMBRELLA protocol serves as an entry for including all children with a renal tumour in the SIOP-RTSG centers, including prospective biomarker analyses. Subsequently, treatment is recommended according to the SIOP RTSG 2016 UMBRELLA treatment guidelines, which provides treatment strategies for all patients with Wilms tumour (WT) and other renal tumours. Central radiology review (CRR) has been proposed as a novel tool within the diagnostic UMBRELLA protocol in order to optimize the diagnostics and hence the treatment. The definition of metastatic disease in WT remains difficult since pulmonary nodules may not always be of malignant origin. The differential diagnosis of a pulmonary lesion seen in a child with WT is broad. In addition to malignancy, it includes atelectasis, fibrosis, pneumonitis, subpleural lymph nodes, and other infectious or inflammatory lesions. In addition, the issue of "CT-only" nodules in WT and adequate treatment needs to be solved. In previous protocols, the treatment strategy was based on the diagnosis of pulmonary metastases (92% of all metastases) by conventional pulmonary X-ray. Patients with CT-only nodules (= nodules not visible on conventional X-ray) were supposed to be treated as having localized WT. However, retrospective analyses of SIOP series (Smets et al), showed that patients with CT-only nodules had a less favourable prognosis as compared to patients with truly localized disease with a 12% difference in three-year event-free survival. The diagnostics of bilateral renal tumours (stage V) often is complicated since it may be difficult to distinguish true WT from nephroblastomatosis/ nephrogenic rests, a pre malignant renal (multifocal) anomaly, which may respond to preoperative chemotherapy. An optimal multi-disciplinary sequential diagnostic procedure is required in order to propose the best adapted therapeutic approach to preserve sufficient renal tissue.
Patients treated on the first line of Sunitinib-targeted therapy for metastatic kidney cancer. Collection of additional blood tubes during routine blood tests for patient follow-up, to evaluate the plasma concentration of Sunitinib and its active metabolite desethyl-Sunitinib (DES)
Nephroblastoma (Wilms tumor, WT) is the most common renal tumor of childhood representing ± 6% of all childhood malignancies. The diagnosis is established on clinical and radiological grounds. Metastases are visible on conventional imaging in at least 12% of nephroblastoma patients; however, an additional ~15% of patients have nodules on CT-scan only. The treatment consists of neoadjuvant (preoperative) chemotherapy, nephrectomy and risk-based adjuvant chemotherapy ± radiation therapy (RT) to the flank and/or metastases. For truly localized tumors, overall survival is > 85% (high risk histology excluded). Several high risk biological characteristics have been identified: diffuse anaplasia, gain of 1q chromosome, loss of heterozygosity 1p + 16q, blastemal residual volume. For metastatic nephroblastoma, the standard neo-adjuvant chemotherapy includes 3 drugs: vincristine, actinomycin-D and doxorubicin (VAD). Long-term survival is 82% (1). However, two issues arise. First, the use of doxorubicin ± concomitant RT might be associated with cardiac and pulmonary sequelae (4-17% of congestive heart failure) (2), and actinomycin-D is associated with hepatic toxicity (3). Second, patients with "CT-only" nodules are treated according to "localized disease". However, their outcome is poorer than that of truly "localized disease" (4-6). The efficacy of carboplatin and etoposide is known for a long time; these drugs are used as second line treatment or for high-risk histology nephroblastoma. Therefore, an alternate chemotherapy has been designed that combines drugs shown as highly efficacious in nephroblastoma, i.e., Vincristine, Carboplatin and Etoposide (VCE). VCE has been used for the treatment of other pediatric malignancies. For metastatic nephroblastoma, the switch from VAD to VCE and the associated reduction of actinomycin-D and doxorubicin is expected to reduce the chemotherapy-related long-term toxicity. In addition, VCE could potentially decrease the rate of patients requiring pulmonary RT. Finally VCE may have a beneficial effect on tumor high risk biological characteristics. French patients with nephroblastoma have been treated for > 40 years according to SIOP protocols collaborating in the SIOP Renal Tumour Study Group (SIOP-RTSG). This group has designed an international randomized phase III clinical trial for the evaluation of VCE versus VAD in patients with metastatic renal tumors (>>90% having nephroblastoma), in order to decrease the long-term toxicity while at least preserving, if not improving, the treatment efficacy. In addition, the issue of "CT-only" nodules and their adequate treatment needs to be solved. In previous protocols, the treatment strategy was based on the diagnosis of pulmonary metastases (~90% of all metastases) by conventional pulmonary X-ray. Central Radiological Review (CRR) is planned for the initial staging using CT ± MRI, as it is expected to more accurately detect patients with metastatic disease, including patients with "CT-only" nodules. In addition, CRR will be set up for real-time response assessment during treatment, in order to reliably determine who require pulmonary RT and which postoperative chemotherapy. Therefore, the main trial objectives are: - Explore the non-inferiority (efficacy) of neoadjuvant VCE chemotherapy (experimental arm) as compared to the standard arm with VAD. - Provide central radiological review (CRR) at diagnosis and after neoadjuvant chemotherapy in order to determine more precisely the appropriate treatment for each patient. The primary objective of the RCT is to investigate the metastatic complete response rate (MetCR, including very good partial response (VGPR)) of neoadjuvant 6 weeks of VAD as compared to neoadjuvant VCE in stage IV renal tumours using CRR. Several international studies have shown that MetCR is a good surrogate endpoint for survival. The postoperative treatment, secondary objectives as well as the intended methodology are detailed in the research project. The total number of patients is 406 patients for the entire phase III trial running in the 12 major SIOP countries (max 110 patients in France). The expected trial duration is 5 years for accrual + 2 years follow-up (the overall 10-year follow-up for long-term toxicity will be an independently funded ancillary study. This duration is required for a reliable evaluation of the cardiac toxicity). The results of the current trial should be useful for the future protocols for the treatment of all patients with nephroblastoma (metastatic but also localized and bilateral). The results of this RCT will be worthy for the entire international pediatric oncology community and future patients throughout the world and will be communicated in scientific congresses and high-level peer-reviewed journals.
This study evaluates the impact of nephrectomy in renal cancer on blood pressure and renal function. The patients will have a follow-up of their blood pressure and renal function until 6 months after their operation.
Describe in patients with metastatic kidney cancer treatment modalities with the type sequences: TKI - mTORi - Axitinib or VEGF mAb - mTORi - Axitinib.