There are about 28871 clinical studies being (or have been) conducted in Canada. 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.
This is a randomized, parallel group, placebo-controlled study designed to assess whether GSK239512 can enhance lesion remyelination in subjects with Relapsing Remitting Multiple Sclerosis (RRMS). Subjects with RRMS on stable background treatment with either Avonex (Interferon-beta1a) or Copaxone (Glatiramer Acetate) are eligible to participate. Subjects will be randomized in a 1:1 ratio between placebo and GSK239512, and will continue to be managed with their current standard of care therapy (Copaxone or Avonex). The total treatment period is 48 weeks, including a standard 4 week titration period and 44 week maintenance treatment period (which could be adapted to a 5-week titration and 43 week maintenance period, if needed). Titration doses start at 10 micrograms (mcg) and increase up to 80 mcg (10 mcg first week, 20 mcg second week, 40 mcg third week, 80 mcg fourth week). Subjects will be titrated to the maximum tolerated dose with the objective of titrating to the highest dose (80 mcg GSK239512), whenever possible, based on investigator judgement of tolerability. The post-treatment follow-up period will be a minimum of 2 weeks in duration following the end of treatment at Week 48 or early withdrawal, as appropriate.
The purpose of this 12 week study is to evaluate the effects of the addition of umeclidinium bromide (62.5mcg) once-daily to fluticanse propionate/salmeterol (250/50mcg) twice-daily, umeclidinium bromide (125mcg) once-daily to fluticanse propionate/salmeterol (250/50mcg) twice-daily versus placebo to fluticanse propionate/salmeterol (250/50mcg) twice-daily on lung function, COPD-related health status assessments and safety in COPD subjects.
Subjects with Ulcerative Colitis who have completed an induction study with PF-00547659 will receive an additional 144 weeks of open-label treatment to evaluate the long-term safety of the drug.
In closed-loop controlled anesthesia, feedback from a measure of the clinical effect is used to continuously adjust drug infusion rates. Anesthetic drugs are delivered at a variable rate that is personalized to the individual patient. The aim is to provide greater hemodynamic and respiratory stability, more stable depth of anesthesia, the ability to predict recovery and to administer a lower total dose of drug. Previous work in closed-loop control of intravenous anesthesia has focused on the titration of propofol in response to a depth of hypnosis (DOH) measure derived from the electroencephalogram (EEG). The purpose of this pilot study is to evaluate iControl-RP, a system, which performs controlled delivery of both remifentanil and propofol infusions. iControl-RP allows either drug to be operated in any of 3 modes: closed-loop control based on feedback from an EEG measure supplied by NeuroSENSE (1); target-controlled infusion (TCI), based on previously-described pharmacokinetic (PK) and pharmacodynamic (PD) models; and conventional manual infusion, which require a weight-based dose setting. A pilot two-phase study will be undertaken in a group of adult patients under the direct and immediate supervision of an experienced anesthesiologist. In Phase 1 (involving 50 study subjects), propofol will be administered in closed-loop mode and a remifentanil infusion will be administered based on a TCI. The data collected in this phase will be used to tune the controller parameters, which are initially based on previously published PKPD data. The controller performance will then be evaluated in phase 2 (involving 100 study subjects), in which both propofol and remifentanil will be administered in closed loop mode. In both phases, cases will be selected from those receiving propofol and remifentanil as anesthetic agents for routine surgical procedures. The investigators aim to demonstrate that closed-loop control of anesthesia and analgesia based on EEG feedback is clinically feasible. This pilot study will help us take a significant step towards a controlled trial in which the clinical benefit of this method of closed-loop control of anesthesia can be assessed.
The objective of this retrospective trial is to assess safety and efficacy of eculizumab in aHUS patients treated outside of an Alexion-sponsored controlled clinical trial.
Multi-center, non-randomized, open-label, single-dose, parallel group study to determine the effect of impaired renal function on the PK of deferiprone and its 3-O-glucuronide metabolite following a single oral dose of 33mg/kg Ferriprox®.
Objective: Demonstrate the safety of early use of dabigatran following TIA/minor stroke. Background: Although aggressive antithrombotic therapy has been shown to reduce the number of new ischemic events following stroke/TIA, this has always been offset by an increase in the risk of hemorrhagic transformation. Dabigatran is much safer than previously tested antithrombotic agents, with respect to intracranial bleeding and therefore offers a unique treatment opportunity in these high-risk patients. TIA/minor stroke represent the largest group of cerebrovascular disease patients. A short-term intervention such as 30 days of dabigatran treatment has the potential for a very large impact from the population health perspective, given the number of patients who may be treated if a benefit can be demonstrated. Study design: This is an open label, single arm study. Patients with TIA/minor stroke (National Institutes of Health Stroke Scale (NIHSS) score </=3) who can be treated within 24 hours of symptom onset will be eligible. All patients will be treated with dabigatran for 30 days. The dose of dabigatran will be determined by age and renal function (patients >80 years old and/or with GFR 30-50 ml/min will received 110 mg bid, and all other patients will receive 150 mg BID).The primary endpoint is symptomatic hemorrhagic transformation. Patients (n=50) with TIA/minor stroke, defined as having a National Institutes of Health Stroke Scale Score of </=3, will undergo an MRI, including diffusion-weighted imaging (DWI), as well as gradient recall echo (GRE) sequences, which will be used to assess for hemorrhagic transformation. Patients will have a repeat MRI examination at 7 and 30 days to assess for hemorrhagic transformation and new lesion development. The primary endpoint of of phase I is symptomatic hemorrhagic transformation, defined as a parenchymal hematoma on the day 7 MRI scan (GRE sequence), associated with clinical worsening (>/=4 point increase in National Institutes of Health Stroke Scale (NIHSS) score). If dabigatran can be used safely in this population, a second phase aimed at demonstrating the rate of new ischemic lesion development following TIA can be reduced with aggressive antithrombotic therapy. A randomized open-label, blinded endpoint evaluation design will be employed. The investigators hypothesize that dabigatran therapy administered within 24 hours of symptom onset will reduce the rate of new ischemic lesions, relative to standard care, one week and 30 days after onset.
This randomized, double-blind, placebo-controlled, parallel group, multicenter study compared the effectiveness of oral brincidofovir (BCV) to placebo for the prevention of cytomegalovirus (CMV) infection in stem cell transplant patients who were CMV seropositive but negative for CMV viremia before starting treatment with BCV.
A growing body of evidence suggests that in individuals with chronic lung disease their walk speed is related to their daily function and quality of life. It is possible to assess their usual (routine) and fast walking speeds by getting them to walk in a flat hallway. In individuals with chronic lung disease, we anticipate that their usual walk speed will be helpful in exercise prescription and use in multidimensional scoring systems. However, it is important to first determine the measurement properties of these two walk speeds.
Boys suffer a disproportionately large number of fractures compared to girls (55-60%). This study aims to determine why this is the case by identifying risk factors for wrist fractures. The increase in fracture during childhood and adolescence may be associated with 1) risk-taking behaviour in boys, 2) obesity trends in boys during childhood and adolescence, and/or 3) impaired acquisition of bone strength during childhood and adolescence. Importantly from a knowledge translation perspective, modifiable factors such as behaviour, dietary habits or physical activity in boys may predict fracture. The investigators will measure 400 children (100 girls and 100 boys who have sustained a fracture; 100 same age and sex friends) across 4 years of growth. This study will assess risk behaviours, diet, physical activity, motor proficiency (i.e., balance and coordination), fat and muscle mass and bone strength to determine if there are, 1) differences in whether all or some of these factors predict fractures in boys compared with girls and, 2) whether these factors track forward similarly in boys compared with girls as children advance through the growth spurt.