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.
Rationale: Classic galactosemia is a rare inherited metabolic disease that presents in neonatal patients with a life-threatening multi-organ toxic syndrome. Although the current standard of care - a galactose-restricted diet - quickly relieves the severe neonatal clinical picture, it fails to prevent brain and gonadal sequelae. There is a need for new therapeutic strategies. As arginine is an amino acid that is therapeutically widely used with no side effects described, we propose to use it in a pilot-clinical study. We aim to evaluate the effects of arginine in classic galactosemia patients, in order to determine its potential therapeutic role in this disease. Objective: To evaluate the possible effect of arginine on the whole body galactose oxidative capacity in classic galactosemia patients. Study design: Interventional pilot-clinical study with pre-post single arm design. Study population: We aim to include 5 classic galactosemia adult patients homozygous for the p.Q188R mutation. Intervention: All participants will receive arginine in the form of Asparten ® (arginine aspartate) during 1 month, by oral administration. The main study parameter is whole body galactose galactose oxidative capacity.
This study was a non-randomized, open-label, one-sequence, two-period within-subject study to investigate the effect of CYP3A inhibition on the PK of balovaptan in healthy male and female volunteers using itraconazole as a CYP3A inhibitor. The study was conducted at 1 site in the Netherlands.
The goal of the PREEMPT-HF study is to collect device and clinical event data to evaluate extended applications of the HeartLogic Heart Failure Diagnostic (HeartLogic) in a broad spectrum of heart failure patients with an implantable cardioverter defibrillator or cardiac resynchronization therapy defibrillator. There are no primary safety and/or efficacy endpoints for this study. Heart failure is a complex clinical syndrome with high morbidity, mortality, and economic burden. Chronic Heart Failure is persistent, gradually progressive, and punctuated by episodes of acute worsening leading to hospitalizations. Therefore, there remains an unmet clinical need to slow the progression of Heart Failure and prevent hospitalizations. HeartLogic, available in Boston Scientific cardiac resynchronization therapy devices and defibrillators, combines novel sensor parameters such as heart sounds and respiration with other measurements like thoracic impedance, heart rate, and activity into a HeartLogic Index for the early detection of worsening Heart Failure. However, there is limited data on the association of HeartLogic with the risk of Hear Failure readmissions and tachyarrhythmias, or for phenotyping the broad spectrum of Heart Failure patients.
This is a Phase 2b randomized, blinded, placebo controlled study to evaluate the efficacy, safety, PK/pharmacodynamic, and immunogenicity of repeat doses of MEDI6012 in adult participants presenting with acute STEMI (ST segment elevation myocardial infarction). The study will enrol participants presenting with acute STEMI who are planned for primary percutaneous coronary intervention (pPCI). For all participants, an end of study CMR will be performed at 10-12 weeks (70-84 days following Dose 1). A subset of participants will also undergo an index and an end of study CTA.
Intradialytic hypotension (IDH) is a frequent and serious complication that may occur during hemodialysis treatment. The investigators and others have shown that the Hemocontrol biofeedback system is associated with improved hemodynamic stability. Hemocontrol is a technique that guides the patients' blood volume along a pre-set trajectory by continuously adjusting the ultrafiltration rate and dialysate conductivity. In a recent pilotstudy, the investigators found significantly higher plasma vasopressin levels during the first hour of dialysis with Hemocontrol in comparison with standard hemodialysis. Increased vasopressin levels may contribute to intradialytic hemodynamic stability during hemodialysis by enhanced vasoconstriction. These results, however, did not prove directly that the improved hemodynamic stability with Hemocontrol is indeed caused by higher initial plasma vasopressin levels. Alternative explanations might be that 1) the higher initial plasma sodium levels with Hemocontrol dialysis enhance activity of the sympathetic nervous system directly, causing vasoconstriction and thereby improved hemodynamic stability and/or 2) that the higher initial plasma levels of sodium in Hemocontrol inhibit the release of nitric oxide by the vascular endothelium. Another goal of this study is to investigate whether vasopressin is removed with hemodialysis.
The purpose of this clinical study is to evaluate the efficacy and safety of two different levels of conbercept intravitreal (IVT) injection as compared to the approved vascular endothelial growth factor (VEGF) antagonist active control, aflibercept intravitreal injection (2.0 mg/eye, Eylea®), in subjects with neovascular AMD.
Critically ill patients admitted to the intensive care unit (ICU) frequently suffer from circulatory shock or respiratory distress, with high morbidity and mortality up to 40%. After initial fluid resuscitation other complications associated with either treatment or disease may arise. A consequence of treatment might be fluid overload or overfilling. Multiple studies have shown the possible negative effects of - too much - fluid administration, such as venous congestion. Venous congestion entails venous fluid overload, manifested by for example an increased central venous pressure (CVP) or peripheral oedema. This venous congestion may contribute to the occurrence of short-term organ failure by causing a high ''afterload'' in the venous tracts of organs. There is no consensus on how to measure venous congestion. It is important to identify variables that reflect the development of venous congestion in order to investigate whether venous congestion is associated with short-term organ failure. Variables that indicate venous congestion may be obtained with clinical examination and biochemical analyses, supplemented by hemodynamic variables derived from critical care ultrasonography (CCUS) with information about organ perfusion, and both arterial and venous function. The development of short-term organ failure can be assessed by collecting clinical, biochemical and hemodynamic variables at multiple moments. Using repeated measurements is likely to add dynamic information about the diagnostic and prognostic value of these variables. The dynamics of variables, in any direction, over time might improve the diagnostic accuracy and prognostic value of clinical, biochemical and hemodynamic variables that can be collected at the beside of the critically ill patient. Aim and hypotheses This study aims to investigate the association between dynamic variables that reflect venous congestion and the development of short-term organ failure and mortality in the critically ill. The primary objective of this study is to identify the combination of variables at different time points that indicate venous congestion and predict patient outcome. Secondary objectives are to identify a combination of CCUS variables that precede serum creatine rises in patients who develop acute kidney injury (AKI) after an acute ICU admission {diagnostic}; to identify a combination of variables per organ system or subset of populations to predict short-term organ deterioration and 7-day mortality {prognostic}; to identify a combination of variables over 48 hours of ICU admission that predict long-term (90 day) morbidity and mortality {prognostic} and; to validate multiple prognostic risk scores developed for critically ill ICU patients.
Up to 20 subjects will receive an injection with [11C]-UCB-J followed by a PET scan on Days 1 and 28
The Southeast Netherlands Advanced Breast Cancer (SONABRE) Registry is a real life multi-center study. The registry aims to include all patients diagnosed with advanced breast cancer as of 2007 in 11 hospitals in the Netherlands. Data on patient, tumor and treatment characteristics are collected retrospectively from electronic medical files by trained registry clerks.
Objectives: to evaluate the current diagnostic and therapeutic approaches for sepis-associated disseminated intravascular coagulation (DIC) in a large prospective registry. Design: prospective, multicenter, international registry. Study population: patients 18 years or older with severe infection to be potentially associated with DIC will be eligible for the study. The clinical visits and monitoring of the patients will follow local routine practices. No specific imaging tests or laboratory evaluations will be required and patients will be evaluated and treated according to local policy. All the involved centers will be asked to update information on included patients at 2, 4, 6, 8, 10 and 28 days after severe infection diagnosis. Study outcomes: The primary outcome of the study is the development of DIC. Secondary outcomes are thrombotic (arterial and venous) and bleeding events, overall mortality at 28 days. Study sample, feasibility, and analysis plan: We plan to enroll a minimum of 1000 patients.