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.
Congenital plasminogen deficiency causes impaired wound healing and growth of pseudomembranous lesions over multiple parts of the body. The most common lesions involve eyes and are known as Ligneous conjunctivitis. These can cause scarring of the sclera, vision loss and even blindness. These pseudomembranous lesions are recur after surgical excisions, administration of intra-ocular cyclosporine, autologous serum drops or corticosteroids. Clinical data shows that these growths do not worsen and do not recur after administration of plasminogen (either as concentrate or as plasma) in the eyes, locally or intravenously. As plasminogen is not available as concentrate, we are using aliquoted allogenic plasma provided by Canadian Blood Services for intra-ocular application. These will be applied to eyes multiple times a day for a period of 2 to 6 months depending on disease severity and patient response. These may be used again if ligneous conjunctivitis recurs. The patient will be followed for a period of 2 years at least. All serious adverse events will be reported to Canadian Blood Services and Health Canada as appropriate.
Hospitalizations are harmful to patients. Without a proper intervention, it will lead to a permanent decline in physical function, especially among frail individuals. Ultimately, this will worsen quality of life, as well as the cognitive and functional status of affected elderly people, which will arguably reduce functional independence, increase post-discharge institutionalization and death among frail older adults. It is known that patients receiving early physical evaluation and rehabilitation (in the 24 hours following admission) improves post-discharge orientation, decreases delirium and the need of acute care. The rehabilitation often involves ergocycles, but commercially available devices are expensive and often hard to move, to set up in hospital bed and lack connectivity. In this context, a connected ergocycle prototype which has a number of desired characteristics, including low production cost, relatively light and easy to move and with internet connectivity. The goal of this study is thereby to assess the usefulness and acceptability of the prototype with health professionals involved in physical rehabilitation and patients receiving said rehabilitation.
Coronary artery narrowings interfere with blood flow to the heart which can cause chest pain and heart attacks. Cardiologists can treat these narrowings with balloons and stents. However, some narrowings can become very calcified and hard making treatment with balloons and stents difficult. Rotational atherectomy is a tool to treat calcific coronary disease. It uses an ablative drill to break down the hardened plaques inside the coronary arteries facilitating subsequent treatment with balloons and stents. However, during this procedure patients can experience a slow heart rate which may compromise procedural safety. Cardiologists may use a temporary pacemaker that is inserted by separately accessing the heart through a large vein usually from the leg. This maintains a safe heart rate throughout the procedure. However, inserting the temporary pacemaker is associated with additional complications. We have developed and propose an alternative strategy to provide a temporary safety pacemaker during rotational atherectomy without the need for inserting an additional pacemaker.
Our feasibility study will assess the feasibility and acceptability of Family Navigation (FN) to address attrition (dropout) in pediatric obesity management. Results from this study will help our team to plan a large randomized clinical trial to test the effectiveness of FN in reducing attrition. The investigators will enroll 108 6-to-17-year-olds enrolled in pediatric obesity management clinics in Calgary, AB and Mississauga, ON (Canada). One-half of the children will receive Family Navigation (FN) + Usual Care (UC) for 12 months; the other half will receive Usual Care only for 12 months. Overall, the study will take 2.5 years to complete. For children receiving FN, trained navigators will work with children and their families to reduce barriers that limit their access to health services and support. Navigators will offer extra services and resources, such as parking passes for clinic appointments and supportive text messages between appointments. FN is designed to complement the obesity management (Usual Care) received by children and their families. A Steering Committee with children, caregivers, clinicians, and researchers will be created to refine and improve our FN intervention throughout the study. By having better access to care, children and their families working with navigators may be less likely to drop out and more likely to attend more treatment appointments. Ultimately, the participants may be more likely to achieve success in managing obesity.
The purpose of this 4-period study is to confirm the efficacy and safety of batoclimab in participants with gMG. In Period 1, participants will be randomized 1:1:1 to receive batoclimab 680 milligrams (mg) subcutaneously (SC) once a week (QW) or 340 mg SC QW or placebo. The primary efficacy endpoint will be assessed by change in the myasthenia gravis activities of daily living (MG- ADL) score in acetylcholine receptor antibody seropositive (AChRAb+) participants. In Period 2, participants previously treated with batoclimab will be re-randomized to stay on batoclimab (340 mg SC QW or 340 mg SC every two weeks) or receive placebo treatment. The secondary endpoint of maintenance of efficacy will be assessed by change in the MG- ADL score in AChRAb+ participants. Participants demonstrating a response to batoclimab during either Period 1 or 2 may enter the long-term extension (Period 3). Participants who complete Period 3 are eligible to participate in Period 4 (Optional Long-Term extension) according to their treatment assignment in Period 3.
Part 1 of the study determines the optimal dose of inupadenant to be given in combination with carboplatin and pemetrexed to patients that progressed after receiving specific first line treatments for Stage 3 or metastatic non-small cell lung cancer. Part 2 compares the efficacy of inupadenant to placebo when both are combined with carboplatin and pemetrexed for patients that progressed after receiving the same first line treatments for Stage 3 or metastatic non-small cell lung cancer.
The Marathon of Hope Cancer Centres Network (MOHCCN) is a national network of cancer centres that pursue collaborative cancer research in precision medicine (an emerging approach for disease treatment and prevention that considers individual variability in DNA, environment and lifestyle) to accelerate the discovery of innovations and improve the health outcomes for cancer patients
The best prognostic factor following neoadjuvant chemotherapy is the pathological complete response (pCR). pCR is defined as the absence of invading cells in the breast and lymph nodes following neoadjuvant chemotherapy treatment. Since patients with pCR have a better prognosis than those without pCR, some studies have evaluated different methods to predict pCR early in treatment. Thus, patients who do not respond optimally to treatment could be identified early and changed treatment in order to maximize the chances of pCR and avoid the morbidity of poorly effective treatments. To do this, several modalities have been proposed, including MRI, mammography, ultrasound, positron emission tomography, elastography, and serial biopsies, but these techniques have shown predictive and sometimes expensive. Nevertheless, assessment of tumor response after cycle 2 has been suggested to be appropriate for the prediction of pCR. The main objective of this study is to compare the performance of two diagnostic modalities, namely CESM and MRI, in the evaluation of the response of a malignant breast tumor to neoadjuvant chemotherapy and the prediction of pCR. The radiological response will also be compared to the clinical response.
The SPARC-C study is a prospective, single-centre observational study of patients referred for the management of large (≥ 20mm) non-pedunculated colorectal polyps (LNPCPs). Patients are managed consistent with current standards of care. Prospectively collected data includes: patient clinicodemographic details, lesion details, procedural details, and clinical outcomes.
Sodium glucose co-transporter 2 (SGLT2) inhibitors have revolutionized care for people living with type 2 diabetes mellitus (T2DM). They reduce a person's risk of heart failure, renal failure, myocardial infarction, stroke, cardiovascular mortality, and potentially all-cause mortality. Remarkably, some of these benefits also extend to people who do not have T2DM. While the benefits of SGLT2 inhibitors are impressive, there is one life-threatening side effect associated with their use: diabetic ketoacidosis (DKA). The ability to predict which patients are at highest risk of DKA is needed to sufficiently mitigate this risk. Moreover, considering the impressive benefits of SGLT2 inhibitors, identifying patients at the lowest risk of SGLT2 inhibitor-associated DKA is also important so that providers do not overestimate risk in those who stand to benefit most. Advances in genomic technologies and related analyses have provided unprecedented opportunities to bring genomics-driven precision medicine initiatives to the forefront of clinical research. Leading these developments has been the progress made by genome-wide association studies (GWAS) due to decreasing genotyping costs, and consequently, the ability to routinely study large numbers of patients. These approaches allow for systematic screening of the genome in an unbiased manner and have accelerated the discovery of genetic variants and novel biological processes that contribute to the development of adverse treatment outcomes. By using innovative approaches, which harness large cohorts of population controls, sample size limitations that are associated with rare adverse drug reactions such as SGLT2 inhibitor-associated DKA can be overcome. The DANGER study represents a highly innovative new direction wherein partnership among basic science researchers and computational biologists will lead to the application of genomic techniques to identify genetic variants that may be associated with SGLT2 inhibitor-associated DKA.