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.
The purpose of this study is to compare a corneal sampling realized by a flocked swab (flocked swab regular 519CS01) with a sampling by traditional fiber swab (Copan regular swab 164KS01 in polyester). Their impact on the sensibility of the viral culture in the Herpes simplex epithelial keratitis will be the primary objective of this study.
This is a Phase II multi-center exploratory study to identify biomarkers predictive of clinical response to aflibercept in patients with metastatic colorectal cancer who have failed first-line therapy, consisting of an oxaliplatin-containing regimen in combination with bevacizumab. Patients will consent to a needle core biopsy of a liver metastatic lesion prior to starting treatment and blood samples will be collected from study patients during treatment. An exploratory pharmacoeconomic analysis will be performed to evaluate productivity loss, quality of life and resource utilization while on treatment with aflibercept.
The proposed study is a randomized, double blind placebo controlled multicenter study to determine the effectiveness of mirabegron in the treatment of neurogenic bladder dysfunction. Patients will be randomized into one of two trial arms: mirabegron 25mg for two weeks, with escalation to 50mg for the remaining 8 weeks, or matched placebo capsule for two weeks, with placebo escalation for the remaining 8 weeks. Each of these trial arms will be stratified based on whether the patient is already taking an anticholinergic medication or not. The study will treat a total of 144 patients (72 with placebo, 72 with mirabegron). The study hypothesis is that mirabegron will result in a statistically superior (increased) urodynamic bladder capacity. The study duration is 12 weeks, with a 1-4 week run in period where no active or placebo treatment will be administered. The primary outcome measure will be based on an increase in urodynamic bladder capacity. Secondary outcome measures will be additional urodynamic parameters, urinary symptom scales, urinary quality of life indices, and voiding diary results. Patients who are over 18 years of age with a diagnosis of multiple sclerosis (MS) or spinal cord injury (SCI) will be eligible to participate. All eligible patients will have urodynamic studies performed within 4 weeks of trial enrollment, and at the end of study (week 9-10). Adverse events and study outcomes will be assessed at predefined study time points.
The registry will enroll patients with claudication or critical limb ischemia and angiographically significant lesion(s) in arteries of the lower extremity. Subjects will be treated with the Lutonix® Drug Coated Balloon Catheter for approved indications according to the current country-specific Instructions for Use (IFU) and followed clinically for 1 year.
Myocardial perfusion imaging (MPI) is a nuclear scan using a radioisotope to see blood flow to the muscles of the heart when the heart is at rest and when it is under stress. The stress test in MPI can be done using medications, such as persantine, that dilate coronary arteries and increase blood flow. Similarly, elevated carbon dioxide (CO2) levels in the blood, or hypercapnia, also dilates arteries and increases blood flow. Thornhill Research Inc. has developed the RA-MR™ sequential gas delivery system used to control CO2 levels in the blood. The RA-MR™ can deliver precise amounts of CO2 through a mouthpiece for inhalation to increase CO2 levels in the blood and thereby increasing blood flow like during stress. The objective of this study is to compare the differences in blood flow through the arteries of the heart during stress with hypercapnia and adenosine MPI. The imaging will be done using positron emission tomography (PET) with the radioisotope, or tracer, called Rubidium (Rb-82). The Rb-82 is given through a pump, or elution system. The investigators hypothesize that hypercapnia will induce a stress-to-rest increase in myocardial blood flow by a factor of 2 or more in myocardial regions supplied by non-stenotic arteries in normal volunteers and participants with coronary artery disease.
This research is being done so that we can look at the safety and efficacy of deferiprone in people with sickle cell disease or other anemias. Deferiprone is a drug that removes iron from the body. We will be comparing deferiprone with deferoxamine, another drug that removes iron from the body.
Myelodysplastic syndromes are common blood disorders that can affect as many as one in 1000 Canadians over the age of 65. They are characterized by low blood counts that require frequent blood transfusions. The development of iron overload in these patients is inevitable. The iron deposits in vital organs such as the heart and the liver and can lead to organ dysfunction. Deferasirox is a well-studied drug that helps remove iron from the body. Most people with this disorder die due to progression of their disease to acute leukemia through multiple mechanisms. Iron overload in patients with myelodysplastic syndromes has been shown to be associated with shorter survival, and potentially a higher chance of leukemia. In a certain sub-group of higher risk patients, the drug azacitidine has been shown to decrease the chance of progression to leukemia and death from it. Thus, it is presently the standard of care for these patients. However, 50% of higher risk patients are still unresponsive to this medication, leaving a large group of patients for which other treatment options are emergently needed. Given that a large proportion of higher risk MDS patients fail to respond to azacitidine, and the evidence that iron deposition may lead to increased leukemic transformation, we would like to study whether iron removal from the body with deferasirox potentiates azacitidine in its effects on overall survival, as well as the chance of leukemia transformation. This question needs to be addressed in a randomized controlled trial, and the first step is a preliminary study to determine if the combination of azacitidine and deferasirox has any biologic effect. This study will determine whether this combination leads to blood count improvement over azacitidine alone. If this drug combination ultimately proves more useful than azacitidine alone with respect to survival, this has the potential to impact the care of a large proportion of patients with myelodysplastic syndromes.
We propose to study the effects on hemodynamics (blood pressure, cardiac output, and central venous pressure) of two doses of bupivacaine for spinal anesthesia during cesarean section: a higher dose of 12 mg to a lower dose of 4.5 mg. We will examine recovery times, incidence of hypotension, and compare pain control and maternal satisfaction during and after cesarean section. We hypothesize that low dose bupivacaine spinal anesthesia will provide equivalent anesthesia for cesarean section compared to conventional dose bupivacaine, with less hypotension, faster recovery time, and enhanced maternal satisfaction. Maternal satisfaction will be assessed by self-reported pain scores, incidence of nausea and vomiting, shivering, and ability to interact with baby in the OR.
First study, at multiple clinical centers, exploring the effects of different combinations of compounds (CC-122, CC-223 ,CC-292 and rituximab) to treat Diffuse Large B Cell Lymphoma (DLBCL) and Follicular Lymphoma
The purpose of this study is to investigate the use of repetitive transcranial magnetic stimulation (rTMS) in helping to prevent relapse in major depressive disorder. rTMS is known to be an effective treatment for major depressive disorder, but there is also evidence that it may be effective in the maintenance of remission following treatment. However, it is not yet clear what maintenance strategy will yield the best outcome in preventing relapse. In this study, eligible patients who have finished one full course of rTMS for treatment of major depression will be randomized into three groups: (i) cluster rTMS, (ii) taper rTMS, and (iii) treatment as usual. The 'cluster rTMS' group will receive two weeks to daily rTMS six months after the completion of their regular rTMS treatment, the 'taper rTMS' group will receive three sessions a week for two weeks followed by two sessions a week for two weeks immediately following their regular rTMS treatment, while the 'treatment as usual' group will receive standard follow-up care from their own psychiatrist and/or primary care doctor. The investigators hypothesize that the group with cluster treatment will show significantly lower relapse rates in depressive symptoms as compared to the other groups.