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 study will assess the safety and tolerability of a new liquid anti-adhesion device, Discrete(TM), in healthy volunteers, in order to determine the best volume of Discrete(TM) to go forward into clinical efficacy research. The clinical trial will progress in accordance with first-in-human study guidance from the United States Food and Drug Administration (US FDA) and European Medicines Agency (EMA). It will be conducted as a randomized, controlled, double-blinded, single ascending volume, single-center, interventional safety trial. Participants will remain blinded to treatment until end of clinical trial. A maximum of 7 cohorts will be studied to assess maximum tolerated volume of investigational medical device compared with Control Lactated Ringer's solution (LRS) administered intraperitoneally. The trial will commence with a low volume and progress in a sequential, stepwise volume-escalating schema until defined maximum tolerated volume criteria are met. Following determination of the maximum tolerated volume, it is anticipated that up to 2 additional cohorts will be enrolled, wherein all participants will also receive a single standard dose of a commonly used anticoagulant as used in surgeries. A maximum of 81 participants will be enrolled. Eligible and consented adult men and women will be sequentially enrolled within each cohort at a ratio of 6 participants on Discrete(TM) to 3 participants on Control LRS. Participants will be followed for up to 10 days after intraperitoneal application. An independent Data and Safety Monitoring Committee will closely review safety in the clinical trial.
Eliminating the need for conventional histopathological assessment of diminutive colon polyps - The Non-Optical Resect and Discard (NORD) study
This study evaluates the effects of arts on the Montreal Museum's clients.
Postprandial glycemic excursions are major determinants of overall glycemic control in type 1 diabetes. Carbohydrate content of ingested meals is the main determinant of post-meal glucose excursion. Accurate carbohydrate counting is a critical aspect of managing postprandial blood glucose levels. accurate carbohydrate counting is considered by patients as a significant burden and frustrating task. The closed-loop system (CLS) is composed of three components: glucose sensor to read glucose levels, insulin pump to infuse insulin and a dosing mathematical algorithm to decide on the required insulin dosages based on the sensor's readings. The objective of this study is to compare the efficacy of two strategies to regulate glucose levels in outpatient settings in adults with type 1 diabetes: 1) single-hormone CLS with rapid acting insulin analogue combined with carbohydrate counting; 2) single-hormone CLS with rapid acting insulin analogue combined with simplified qualitative meal-size estimation. A sub-study will also be proposed to participants. Postprandial exercise combines two situations complicating CLS operation: a high plasma insulin due to insulin on-board related to meal boluses and rapid blood glucose changes (postprandial blood glucose excursion and then drop during exercise) making input from the glucose sensor less accurate. The objective of this sub-study will be to explore the safety and efficacy of the CLS using the combined strategy of pre-meal exercise announcement and meal bolus reduction of 33% when exercise is performed 1 hour compared to 2 hours post meal time.
This study intends to assess the role of inflammation in insulin resistant conditions (i.e., obesity and pre-diabetes) and the subsequent development of disease, such as type 2 diabetes (T2D) and cardiovascular disease (CVD), in the adolescent population.
This study is looking to assess the use of an audio-video technology called 'LIFEView' using a laptop and large-screen TV. This tool intends to support life review or reminiscence of past experiences, escape from current surroundings using virtual travel, or virtual visits to a location that one might have liked to visit in their lifetime but could not. We hope that by using this technology, we can support better wellbeing and quality of life for patients receiving palliative care services within the community and on an inpatient palliative care unit, or for patients at the end-of-life within Bruyère long-term care homes. Due to the potential for disorientation and reduced physical mobility, patients receiving palliative and end-of-life care may be unable to fully enjoy an immersive experience using a virtual reality (VR) headset. To reduce the possibility of disorientation that may arise from using a VR headset with 'LIFEView', our research team will use the 'LIFEView' prototype software loaded on a laptop and connected to a mobile high-definition 50" TV for inpatient PCU and LTC facility use, or to a patient's personal TV within their residence in the community. This setup will also improve accessibility to 'LIFEView' as a result of its relatively low-tech requirements (i.e. TV + laptop), and allows for an opportunity for patients and their loved ones to share cherished memories and stories.
Open-labeled, single-centre study
Background: Residual masses on follow-up surveillance imaging are frequently detected in paediatric patients with Hodgkin's lymphoma and non-Hodgkin's lymphoma. The residual mass may consist of inflammatory, fibrous or necrotic tissue, or it could represent residual tumor. In most cases, positron emission tomography (PET) with 2-[fluorine-18]-fluoro-2-deoxy-D-glucose (FDG) is useful for distinguishing tumor from fibrosis. However, FDG is not tumor-specific, and increased accumulation of the tracer may be seen in a variety of benign entities which can give rise to false-positive or equivocal FDG PET findings. Alternatively, the uptake of 3'-deoxy-3'-[fluorine-18]-fluorothymidine (FLT) reflects cellular proliferation, and may prove to be a reliable method in resolving equivocal FDG PET findings. Indeed, several studies have demonstrated that FLT can be safely administered to children, and in some cases be more useful than FDG PET in differentiating between infection or inflammation and malignancy. This study hypothesizes that FLT PET can be used as an adjunct imaging modality in paediatric lymphoma patients with equivocal interim or post-therapy FDG PET findings, and that this technique can provide additional diagnostic information which will be useful in distinguishing fibrotic or necrotic residual mass lesions from those that may be harbouring malignancy.
Neuraxial anesthesia has traditionally been a 'blind' technique relying on users' feel and skill, both are subjective, lack complete accuracy and influenced by patient's physique variations that are quite challenging, and lead to patient morbidity, infection, and nerve injury. The ultrasound(US) use allows real-time views of needle position thereby achieving higher success rates, fewer complications, and reduced patient discomfort. While US guidance for neuraxial procedures is popular, it is still relatively uncommon due to technical and anatomical challenges. The study investigators have created an innovative methodology to use with HoloLens, an augmented reality tool, to provide an accurate live road map for the needle path hidden under the patient's skin. This see-through model is an objective alternative to the user's memory for direct visualization of the needle virtual trajectory as it passed through the tissue and towards the 3D printed bone. Also, this model may have a variety uses in anesthesia.
This study will investigate whether ECT treatment can reduce the effect of traumatic memories if those memories are recalled immediately prior to the ECT sessions. Participants will be randomized to either a recall of a traumatic memory or a neutral non-traumatic memory prior to their ECT sessions.