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.
When a person is put on a breathing machine the investigators think that the breathing muscles can get weaker. The investigators are not sure how quickly this happens but in some people this leads to problems when they try to breathe on their own without the breathing machine. The diaphragm is at the bottom of a person's chest separating their lungs from what is in their belly and it is a very strong muscle. In fact, it is main muscle that one uses for breathing. An ultrasound machine is a painless way to see what is happening beneath the skin. It is safe and easy to do. Using an ultrasound the investigators are planning to measure how thick the diaphragm is and how much it changes while a person is on a breathing machine in the ICU. Getting a better understanding of this condition could lead to improved treatments that might help support patients who require a ventilator for breathing. The investigators hypothesis is that patients for whom the breathing machine is doing all of the work of breathing, will have their diaphragm thickness gradually decrease and changing to a breathing modem mode where they have to put in more effort the diaphragm thickness will start increasing again.
ABSORB IV is a prospective, randomized (1:1, Absorb BVS to XIENCE), single-blind, multi-center study, registering approximately 2610 subjects from approximately 140 sites in the United States and outside the United States. ABSORB IV is a continuation of ABSORB III (NCT01751906) trial which are maintained under one protocol because both trial designs are related. The data from ABSORB III and ABSORB IV will be pooled to support the ABSORB IV primary endpoint. Both the trials will evaluate the safety and effectiveness of Absorb BVS. The ABSORB IV Randomized Controlled Trial (RCT) is designed to continue to evaluate the safety and effectiveness as well as the potential short and long-term benefits of Abbott Vascular Absorb™ Bioresorbable Vascular Scaffold (BVS) System, and the Absorb GT1™ BVS System (once commercially available), as compared to the commercially approved, control stent XIENCE.
The study seeks to determine the accuracy of using anatomic and physiologic information measurable by computed tomography features of stenosis, plaque, fractional flow reserve-CT and to compare this measure to stress testing for the detection of myocardial ischemia against the gold standard of cardiac catheterization with fractional flow reserve. The hypothesis of this proposal is that integrating anatomic plaque features with physiologic fractional flow reserve-CT will optimize identification of coronary lesions that are ischemia-causing by computed tomography .
The Integrated Consent Model is being increasingly used internationally to improve patient care. In this feasibility study we will explore whether the model is feasible in practice; and whether it can be used to increase the number of physicians and patients who take part in clinical trials, and address the critical issue around the optimal febrile neutropenia prevention by randomizing eligible patients to either G-CSF or ciprofloxacin.
A Registry Study to Evaluate the Survival and Long-Term Safety of Subjects Who Previously Received Talimogene Laherparepvec in Amgen or BioVEX-Sponsored Clinical Trials
This multicenter, open-label, phase 3 extension study will investigate the safety and efficacy of rVIII-SingleChain for prophylaxis and on-demand treatment of bleeding episodes in at least 200 previously treated patients (PTPs) with severe congenital hemophilia A and previous exposure to FVIII products who achieve at least 100 exposure days (EDs) to rVIII-SingleChain in this study, as well as in previously untreated patients (PUPs) with no previous exposure to any FVIII product who achieve at least 50 EDs to rVIII-SingleChain in this study. A substudy (open to both PTPs and PUPs) will investigate the use of rVIII-SingleChain in surgery. A substudy (open to PUPs who develop an inhibitor to rVIII-SingleChain) will investigate the use of rVIII-SingleChain in immune tolerance induction (ITI) therapy.
The BCCA Oncopanel is a clinical assay being developed to determine genotype status of a prospectively defined set of genes. The purpose of this pilot study is to assess the feasibility and effect on clinical-decision-making of the Oncopanel test. Eligible patients are those with advanced lung, colorectal, melanoma and GIST cancers and patients with diagnosed malignancies being considered for clinical trials.
Up to two hundred (200) adult participants with type 1 diabetes (T1D) aged 18 to 75 years will be selected for inclusion in the study. The target is to obtain treatment response and user-experience data following use of nasal glucagon (AMG504-1) in treating episodes of hypoglycemia. The population will be enriched to include participants who suffer from impaired hypoglycemia awareness.
Between 8% and 12% of Canadians suffer from asthma. Although there are effective and inexpensive treatments, adherence to asthma treatment is amongst the lowest for all chronic diseases.The purpose of this study is to determine whether enhancing the role of community pharmacists in asthma management using interactive short messaging service (SMS) with asthma patients is a cost-effective model that will improve adherence to inhaled corticosteroid medications compared to usual care.
The purpose of this clinical investigation is to evaluate the performance and safety of the HeartMate 3 Left Ventricular Assist System (HM3 LVAS) To support obtaining CE Mark for the HM3 LVAS in Europe, a multi-center clinical study will be conducted in multiple countries. The clinical study will be conducted in compliance with the Declaration of Helsinki, ICH/GCP and EN ISO 14155:2011 Requirements for Clinical Investigations and in accordance with country-specific requirements, under one clinical study protocol. This study will evaluate the performance of the HM3 LVAS, side effects and undesirable conditions within acceptable risks and weigh them against the intended performance of HM3 LVAS in accordance with Essential Requirements 2, 5 and 16 of the Active Implantable Medical Device Directive 90/385/EEC (AIMDD).