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.
Patients with chronic respiratory disease may be prescribed oxygen therapy. Currently, the dose of oxygen flow is fixed (FixedO2) depending on activity level i.e. rest, physical activity and sleep. Automated Titration of Oxygen (AutoO2) is a closed-loop system in which the oxygen flow to the patient is continuously machine adjusted to meet the patient's immediate needs on the basis of signals from pulse oximetry (SpO2). The purpose of this study is to examine if automated oxygen control based on pulse oximetry provided to participants is superior to prescribed fixed oxygen flow in keeping SpO2 within the intended target interval of 92 to 96% arterial oxygen saturation.
The goal of this clinical trial is to compare 2 different timepoints for clamping the umbilical cord at birth for term-born infants with a prenatal diagnosis of congenital heart disease (CHD). The main questions it aims to answer are: - Does Delayed Cord Clamping at 120 seconds (DCC-120) or Delayed Cord Clamping at 30 seconds (DCC-30) after birth lead to better health outcomes? - Does DCC-120 seconds or DCC-30 seconds after birth lead to better neuromotor outcomes at 22-26 months of infant age (postnatal)? Participants will be asked to do the following: - Participate in either DCC-120 or DCC-30 at birth (randomized assignment). - Complete General Movements Assessment (GMA) at 3-4 months of infant age (postnatal), complete questionnaires / surveys at this time. - Complete questionnaires / surveys at 9-12 months of infant age (postnatal). - Complete Hammersmith Infant Neurological Examination (HINE), Developmental Assessment of Young Children 2 Edition (DAYC-2), and questionnaires / surveys at 22-26 months of infant age (postnatal). - Permit data collection from electronic medical records for both the mother and infant study participants. Investigators will compare DCC-120 vs. DCC-30 to see which approach is more beneficial to both the mother and baby with CHD.
This clinical trial will investigate the ability of thromboelastrogrpahy (TEG®) to detect hypercoagulability after liver surgery and will examine the effect of extended thromboprophylaxis (medical treatment to prevent the development of blood clots inside blood vessels) in patients undergoing liver surgery for cancer treatment. The liver plays a key role in regulating the process of blood clotting. As a result, blood clots are a major cause of complications and death following liver surgery. This is especially true in cancer patients who are at a higher risk of developing blood clots. Current methods for preventing clotting complications after liver surgery include conventional coagulation blood tests (CCTs) and anticoagulant drugs, such as low molecular weight heparins (LMWHs). Current LMWH treatment is prescribed for one month after surgery, but studies show that the risk of developing blood clots can last up to 3 months. Studies also show that CCTs may not be as effective in detecting clotting issues as more comprehensive testing systems, such as TEG. This study will randomize 50 participants to receive 90 days of thromboprophylaxis (using the LMWH Redesca) or the standard of care 30 days (using the LMWH Fragmin) after liver surgery. The medication will be given by injection, similar to a regular vaccine or an insulin injection. Participants will inject the medication every day, for 30 or 90 days, after surgery. Participants will also have their blood tested for clotting issues via TEG testing before surgery and on post-operative days 1,3,5,30 and 90. After surgery, participants will be monitored by their surgeon for clotting complications and 3 year disease-free survival.
This is an open-label, single-centre study to evaluate the clinical efficacy, safety and tolerability of Flunarizine administered as adjunctive treatment in participants diagnosed with treatment resistant absence epilepsy. The study goal is to see how efficient and safe flunarizine is at decreasing the frequency of absence seizures in children with treatment-resistant refractory epilepsy at doses of 5mg and 10mg once daily.
Background: Childhood cancer survivors (CCS) are at elevated risk of chronic health conditions. Chemotherapies can cause recurrent acute kidney injury which may progress to kidney fibrosis, chronic kidney disease (CKD) or hypertension (HTN). CCS surviving to adulthood are at ≥3 times the risk (vs. non-CCS) for CKD, HTN and lower quality of life. However, the timing of CKD and HTN onset in CCS completing cancer therapy in childhood remains unclear. Guidelines provide recommendations on managing post-cancer therapy effects in CCS, but they lack specificity on kidney testing content, frequency and complications. This discord is largely due to knowledge gaps on which CCS develop CKD or HTN after cancer therapy, when outcomes occur and their severity. Existing work has shown in select patients, CKD and HTN in CCS likely begins in the first 5 years post-cancer therapy and that the burden is significant. With robust data on CKD and HTN, international CCS follow-up guidelines can be optimized to include detailed and actionable recommendations on kidney and blood pressure monitoring and treatment.
In this triple-blind randomized controlled trial, we ask if targeting intermittent theta burst stimulation (iTBS) based on individual resting state connectivity improves treatment outcomes in major depressive disorder (MDD). For the trial, we will recruit 210 patients with major depressive disorder. Each patient will undergo a 30-40-minute MRI scan, after which they will receive a 6-week standard iTBS treatment. Participants will be randomized to receive iTBS either to the standard neuronavigated target (a technique for treatment location targeting, based on group-average connectivity) or to a personalized connectivity-guided target selected based on individual functional connectivity scans. The main outcome of this trial is response rate as determined by ≥ 50% reduction in Grid HRSD-17 scores. Secondary outcomes include remission rate, change in depression, anxiety and anhedonia symptoms, quality of life, and biological measures of heart rate variability, objective sleep measures and daily activity as a proxy of anhedonia - defined as a reduced ability to experience pleasure.
The purpose of this study is to learn about the study medicine called elranatamab.This study aims to compare elranatamab to other medicines for the treatment of MM (a type of cancer). This study is seeking participants who: - Are 18 years of age or older and have MM. - Have received treatments before for MM. - Have MM that has returned or not responded to their most recent treatment. Half of the participants will receive elranatamab. The other half of participants will receive a combination therapy selected by the study doctor. The selected combination therapy will include 2 to 3 different medicines commonly used to treat MM. Elranatamab will be given as a shot under the skin at the study clinic about once a week. This may change to a smaller number of shots later in the study. The medicines in the combination therapy will be taken by mouth (at home or at the study clinic) AND will be given either as: - a shot under the skin at the study clinic - through a needle in the vein at the study clinic The number of times these medicines will be taken depends on what combination therapy the study doctor selects. Participants may continue to receive elranatamab or a combination therapy until their MM is no longer responding. The study team will see how each participant is doing with the study treatment during regular visits at the study clinic. The study team will continue to follow-up with participants after study treatment with telephone contacts (or visits). The study will compare the experiences of people receiving elranatamab to those people receiving a combination therapy. This will help learn about the safety and how effective elranatamab is.
Phase 2 Trial of BMF-219 in Participants with Type 1 Diabetes Mellitus.
The objective of this trial is to compare the bioavailability (AUC, Tmax, and Cmax) of different Coenzyme Q10 preparations in healthy adults. Pharmacokinetic parameters of orally ingested CoQ10 such as AUC, Cmax and Tmax, as well as the ratio of reduced CoQ10 levels to total CoQ10 plasma levels (using the AUC) after administration are compared.
The goal of this intervention study is to test the effects of a nurse-led mobility intervention (known as the OASIS Walking Intervention (Older Adults performing Sit to Stands and Walking Intervention)) in older adults with cognitive impairment, such as dementia, in transitional care programs. The main questions this study aims to answer are: - Is the study doable and are older adults satisfied with the intervention? - Does the intervention improve older adults' muscle strength, mobility, functional status and quality of life? Participants will be asked to do the following: 1. Be interviewed once so that a patient-centred communication care plan can be made 2. Do sit to stand activity 3. Walk as part of a walking program.