There are about 13332 clinical studies being (or have been) conducted in Netherlands. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
The main clinical study will be a randomized, double-blind, placebo-controlled, long term study involving a 100 week treatment period. The purpose of this study is to test for superiority of treatment with belimumab 10 mg/kg plus supportive therapy compared to placebo plus supportive therapy in idiopathic membranous nephropathy (IMN). The purpose of this study is also to investigate the effect of initiating earlier treatment with belimumab compared to delayed treatment with current immunosuppressive treatment regimens. The study will also determine the pharmacokinetic (PK) profile of belimumab and further explore the mechanism of action of Belimumab as well as effects on quality of life. All subjects (on either active treatment or placebo) will receive background supportive therapy throughout the main clinical study, which includes angiotensin-converting enzyme inhibitors (ACEi) and/or angiotensin receptor blockers (ARBs) unless contraindicated and may include statins, diuretics, dietary salt restriction but excludes immunosuppressants (except low dose corticosteroids). Screening will be done within 5 to 2 weeks before the first scheduled dose of study treatment. A total of 94 evaluable subjects will be randomized in a 1:1 ratio such that 47 subjects receive intravenous belimumab 10 mg/kg and 47 receive intravenous placebo. Subjects will be dosed on Days 0, 14, 28 and then every 4 weeks through to, and including, Week 100, resulting in a total of 27 doses (giving 104 weeks of drug exposure). The dosing frequency will be adjusted to every 2 weeks if the subject's proteinuria as assessed by urinary protein creatinine ratio (PCR) is greater than 1000mg/mmol (greater than 10 g/24 h), to compensate for loss of belimumab in the urine. Subjects who are withdrawn from study treatment at any time during the study, eg for rescue therapy, will participate in follow-up visits every 12 weeks up to week 104. A subject will be regarded as having completed the main clinical study if they complete all phases of the main clinical study (screening, treatment period, 4 week and 16 week post last dose short term safety follow-up). Subjects who complete the main clinical study will therefore participate in the main clinical study for approximately 28 months. After the main clinical study, there will be a 5 year (long term) follow-up phase to assess long term outcomes.
Patients with a high grade glioma have an increasing overall survival and progression free survival after initial treatment. Because of a better performance status these patients are more often eligible for re-treatment with for example radiotherapy. However, to date only a few prospective studies on re-irradiation of gliomas exist and very little is known about the effects of re-irradiation on quality of life and cognition. This trial is designed to longitudinally establish the effects of re-irradiation on quality of life, cognition and physical performance in patients with a high grade glioma. Based on the currently available information the investigators hypothesize that quality of life after re-irradiation can be kept stable until further tumour progression.
Usually videolaryngoscopy using a videolaryngoscope with a classic Macintosh design is performed with the blade in the vallecula and the epiglottis elevated from the vocal cords indirectly, as in direct laryngoscopy. However, during an audit of videolaryngoscopic practice we noticed that, in obtaining the best view, clinicians frequently and inadvertently advanced the blade into the vallecula to get a better view, such that the epiglottis was downfolded and elevated directly from the vocal cords. However, a better view does not necessarily lead to higher intubation success. In this randomized, controlled trial, we want to determine the efficacy of videolaryngoscope-guided tracheal intubation using an alternative position for the blade in patients with normal airways.
GSK1605786 is an oral antagonist specific for the chemokine receptor CCR9 in development for treatment of small bowel and colonic Crohn's disease (CD). The purpose of this Phase II proof of concept study is to investigate the efficacy and safety of GSK1605786 (500 mg twice daily) administered orally for 16 weeks for the treatment of patients with active ulcerative colitis (UC). A key secondary objective is to understand the mechanism by which GSK1605786 is acting and to this end samples will be collected to confirm the degree of inhibition of CCR9 on T lymphocytes in the blood of patients, and to explore the relationship between concentration of drug and changes in lymphocyte and antigen presenting cell populations in the peripheral circulation and in the colon. Patients recruited at specified investigational sites will be invited to participate in an optional sub-study to explore the effects of GSK1605786 on trafficking of technetium labelled T cells using Single Photon Emission Computerized Tomography (SPECT). Specifically, the technique will be used to follow trafficking to large intestine and thymus and findings linked to pharmacokinetics of GSK1605786, receptor occupancy and clinical efficacy outcomes
The research the investigators propose is a molecular imaging study of RO5323441, an antibody against placental growth factor (PlGF) in patients with recurrent GBM treated with bevacizumab, a drug against vascular endothelial growth factor (VEGF). Both VEGF and PlGF are molecules involved in tumor growth since they enable the development of tumor vasculature, thus delivery of oxygen and nutrients to the tumor. The treatment will consist of bevacizumab (i.v.) given every 2 weeks, until the patient has clinical benefit (no disease progression) or unacceptable toxicity. Meanwhile, patients will receive and injection of low protein-dose radiolabeled RO5323441 (89Zr-RO5323441) on day -3 and 11 of the first bevacizumab treatment cycle. Brain-only 89Zr-RO5323441 positron emission tomography (PET) will be performed at 2 hours after each injection of 89Zr-RO5323441 on day -3 and 11. Whole body 89Zr-RO5323441 PET will be performed on day 1 and 15, before and after the first treatment with bevacizumab. The main purpose of this trial is to determine how much of RO5323441 actually gets into the recurrent GBM lesions, since for a drug to be active, it has to be able to reach cancer cells. As second aims, RO5323441 accumulation in normal, non-tumor organs, will be assessed, as well as how bevacizumab influences RO5323441 penetration into tumor lesions (to answer the question of combined bevacizumab + RO5323441 treatment in GBM) or RO5323441 biodistribution in non-tumor organs.
The hyper IgD syndrome (HIDS) is an inflammatory disease caused by mevalonate kinase deficiency. There is no cure, and available treatments of HIDS febrile episodes have shown limited clinical efficacy. The development of effective interventions for HIDS is limited by our poor understanding of the disease. The goal of the study is to better characterize the inflammatory response during HIDS episodes and to determine the relationship between this response and blood and urine markers of mevalonate kinase deficiency. This knowledge will help us learn more about the cause of the disease and should lead to the identification of new disease biomarkers that can be used to evaluate clinical efficacy in future therapeutic trials. The primary hypothesis is that the costimulatory B7 glycoprotein abnormalities identified in the murine MKD model will be recapitulated in sera obtained from human HIDS patients, either before, during or after febrile episodes. The secondary hypothesis is that B7 glycoprotein molecule levels will correlate with clinical symptomatic severity score, other known biomarkers of HIDS, markers of inflammation and or markers of isoprenoid metabolism.
The purpose of this study is to determine if 48 weeks of therapy with Pegylated Interferon Lambda plus Ribavirin is effective and safe for a treatment of chronic hepatitis C (CHC) compared to therapy with Pegylated Interferon Alfa-2a plus Ribavirin.
This study will evaluate the effect of immediate pancreatic enzyme suppletion on the physical and mental health status and survival of patients who are diagnosed with pancreatic cancer and are highly likely to develop exocrine pancreatic insufficiency during their disease process.
ThoraflexTM is designed for the treatment of aneurysm or penetrating ulcer of the descending thoracic aorta. Each system is advanced from a transfemoral or transiliac approach over a 0.035" guidewire and positioned under fluoroscopic control. If necessary, an arterial conduit technique may be required to allow access to the arterial system. The soft tapered tip allows atraumatic insertion into the vessel, while the catheter and sheath are designed to provide excellent flexibility and control through tortuous arterial anatomy. Each individual stent graft device is supplied sterile and pre-loaded in a single-use delivery system. The stent graft is a self-expanding endoprosthesis constructed of a thin wall woven polyester and nitinol ring stents, which are attached to the fabric with braided polyester sutures. The delivery system central catheter is a stainless steel braided co-extrusion of polytetrafluoroethylene (PTFE) and polyester elastomer, designed to provide significant torque control and strength, while also maintaining superior flexibility. The outer sheath is made in a tri-layer construction consisting of a PTFE liner, a stainless steel flat braid layer and a polyester elastomer outer jacket with a hydrophilic lubricant coating. These materials provide very low friction force during device insertion and deployment together with enhanced flexibility of the delivery system. The handle components are moulded from thermoplastic polyurethane. The materials of the endoprosthesis are identical to those of the current Conformité Européenne (CE) marked Vascutek Ltd. AnacondaTM Stent Graft System intended for abdominal aortic aneurysm repair. The materials of the delivery system are well established in medical applications. The design of ThoraflexTM is based on the same principles as other clinically established thoracic endovascular devices. The endoprosthesis is constructed of self-expanding nitinol stents and a polyester tube graft. Four proximal hooks anchor the endoprosthesis within the aorta. Unlike existing thoracic endovascular devices, the delivery system of ThoraflexTM allows repositioning of the endoprosthesis so that the optimal deployment position can be enhanced. The intended use of ThoraflexTM is the treatment of aneurysm or penetrating ulcer of the descending thoracic aorta, which is identical to other CE approved thoracic endovascular devices.
TELEMED-HF is a randomized, controlled clinical intervention trial designed to: (1) examine the efficacy of an electronic Medication Adherence Support System (MASS) in improving and monitoring patients' medication adherence; to (2) i determine the effect of medication adherence on hospitalization and health care consumption.