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.
Background Chronic inflammation in peripheral airways plays an important role in the pathophysiology of asthma. Extrafine hydrofluoroalkane (HFA) beclometasone is distinguished from other ICS because of its fine aerosol characteristics. As a result, there is a greater extent of deposition of extrafine HFA-beclometasone in the peripheral airways. Therefore, extrafine HFA-beclometasone may have an extra anti-inflammatory effect in children with asthma. Aim To analyse the potential extra anti-inflammatory effect of extrafine HFA-beclometasone compared to HFA-flucticasone in children with asthma by means of alveolar nitric oxide (NO) concentration and bronchial NO flux, inflammatory markers in exhaled breath condensate (EBC), and conventional parameters. Method In a cross-over study design of 6 months, 33 children, aged 6-12 years, with doctor diagnosed mild persistent asthma, were treated with extrafine HFA-beclometasone inhaled from an autohaler and HFA-flucticasone inhaled from a discus. Primary outcome parameters of this study were; alveolar NO concentration and bronchial NO flux. Secondary outcome parameters were inflammatory markers in EBC, lung function parameters, symptoms, presence and duration of exacerbations and adverse effects. All parameters were recorded at baseline and after each treatment period.
The purpose of this study is to evaluate the safety and efficacy of siltuximab in participants with relapsed (the return of a disease or the signs and symptoms of a disease after a period of improvement.) or refractory (cancer that does not respond to treatment) multiple myeloma (a type of cancer that begins in plasma cells [white blood cells that produce antibodies]).
The purpose of Part 1 of the study is to determine the safety of the combination of Siltuximab (CNTO 328) and bortezomib (Velcade). The purpose of Part 2 of the study is to compare the length of progression free survival for those patients given CNTO 328 and bortezomib to those patients given bortezomib alone.
The purpose of the Metricath Gemini System is to pre-dilate the target treatment area, take arterial lumen measurements in a native section of artery or within the deployed stent and perform further dilation of the deployed stent if required. In this manner, the Metricath Gemini System can assist the Interventionalist by providing arterial measurements prior to stenting, performing pre-stenting angioplasty, taking within stent measurements to help determine if the stent is fully deployed, and by performing post-stenting dilations to further dilate the stent if required.
Patients undergoing surgery, especially hip and knee surgery, are at high risk for VTE. The administration of drugs for thromboprophylaxis, such as heparins, significantly lowers that risk, but heparins have to be applied by injections below the skin. The purpose of this study was to compare the safety and efficacy of BAY 59-7939 with the safety and efficacy of the licensed drug enoxaparin and to find the optimal dose of BAY 59-7939 for the anticipated phase III trials. Enoxaparin, a so-called low molecular weight heparin, is approved and widely used in the area of thromboprophylaxis and was given once daily subcutaneously. In this study 5 different doses of the investigational drug BAY 59-7939 were tested in comparison to Enoxaparin. The following doses of BAY 59-7939 were tested: 2.5 mg twice daily (5 mg total daily dose); 5 mg twice daily (10 mg total daily dose), 10 mg twice daily (20 mg total daily dose), 20 mg twice daily (40 mg total daily dose) and 30 mg twice daily ( 60 mg total daily dose). This study ran for approximately 7 months in a number of countries. In total, 726 patients were enrolled in this study.
During the insertion of epidural catheters several complications can occur, including transient paraesthesia and inadvertent venous cannulation. Reported incidences for paraesthesia vary widely between about 0.2% and 50% in different articles, depending on the catheter (catheter material, soft-tipped or firm-tipped catheter), the applied technique (lumbar or thoracic epidural anesthesia, depth of catheter insertion), the approach (midline or paramedian) and the included patients (obstetrical or non-obstetrical). Furthermore, the inconsistent definition of "paraesthesia" makes it difficult to compare the results of different studies. Paraesthesia are not supposed to lead to permanent neurological sequelea, but are unpleasant and perturbing sensations for the patient. For inadvertent venous cannulation during epidural catheter placement, incidences between 1% and 14% have been reported. As for the paraesthesia rate, catheter material, technique, approach and included patients are determinants for the incidence of vessel puncture. Main objective of this study is to determine the incidence of paraesthesia with this catheter. Secondary objectives are to record - the frequency of inadvertent venous cannulation - difficulties involved in insertion and removal of the catheter - data on additional complications - data for the evaluation of handling characteristics
Contemporary management of cyanotic congenital heart disease includes three stages of surgery. Incidence of shunt thrombosis and death between the two first stages of palliation remains important. The primary objective of the study is to evaluate the efficacy of Clopidogrel 0.2 mg/kg/day for the reduction of all cause mortality and shunt related morbidity in neonates or infants with cyanotic congenital heart disease palliated with a systemic-to-pulmonary artery shunt (e.g. modified Blalock Taussig Shunt [BTS]). The secondary objective was to assess the safety of Clopidogrel in the study population.
The purpose of this study is to assess different doses of a new drug (BAY 59-7939), taken as a tablet, are safe and can help prevent blood clots forming after a hip replacement operation. Patients undergoing hip replacement surgery are at risk of developing blood clots. To reduce this risk treatment to prevent clots forming is routinely given. The current treatments can include injections under the skin or other treatments that need frequent blood tests to monitor levels of drug in the body. Therefore there is a need for new drugs, which are easier to give and need less monitoring.
The purpose of this study is to determine the optimal dose of BAY 59-7939 and to compare the safety and effectiveness of this new drug with the standard way of treatment of deep vein thrombosis (heparin infusion plus one of the vitamin K antagonists), taking into account new events of thrombosis and pulmonary embolism and bleeding risk.
Rationale: The extreme increase of obesity in the last years had led to this study. There is no consensus about how to anaesthetise morbidly obese patients. The amounts of narcotics given vary widely and rather depend on the anaesthetist than on the pharmacokinetics and dynamics in the morbidly obese patient. Reason for this is that it is not clear in what extend the pharmacokinetics and dynamics are affected in the morbidly obese patient. Objective: The study is performed in order to develop a population pharmacokinetic and pharmacodynamic model of Propofol when used for induction and maintenance of anaesthesia in the morbidly obese patient (BMI > 40). A covariate analysis will be performed in order to account for variability in pharmacokinetic and/or pharmacodynamic parameters. This model will take into account patient and procedure bound covariates. The results will be used to develop individualised dosing schemes of Propofol when used for induction and maintenance of anaesthesia in morbidly obese patients. Study design: A randomised, therapeutic and non-invasive study. Study population: Morbidly obese patients with a Body Mass Index > 40 undergoing laparoscopic banding or gastric bypass surgery, 18-60 year old. Intervention (if applicable): Patients will be randomised into two groups, one group will be given 200 milligrams of Propofol and the other group will be given 350 milligrams of Propofol. During the induction of anaesthesia with Propofol over 60 seconds, the patient is asked to count in order to measure time to induction of anaesthesia. During and following anaesthesia a maximum of 50 ml of blood will be taken from an indwelling arterial line. Depth of sedation will be measured using non-invasive Bispectral Index (target 40-60) and other standard measures (heart frequency and blood pressure). Main study parameters/endpoints: Primary endpoints: pharmacokinetic parameters; clearance, intercompartmental clearance, volume of central compartment and volume of peripheral compartment. Secondary endpoints: pharmacodynamic parameters; time to induction of anaesthesia (stop counting, eyelash reflex, quality of anaesthesia, corresponding dose required for induction of anaesthesia for both induction doses), EC50 using BIS, required doses of Propofol during maintenance of anaesthesia, wake-up time. Nature and extent of the burden and risks associated with participation benefit and group relatedness: A maximum amount of 50 milliliters of blood will be sampled from an indwelling arterial line. The patient will be asked to count slowly during induction of anaesthesia. Both induction doses of 200 and 350 milligrams are currently used standard induction doses for morbidly obese patients.