Active clinical trials for "Metabolic Diseases"

The investigators will study if group education for parents of adolescents with type 1 diabetes (T1D) will improve the transition from adolescence to adulthood. The investigators aim to conduct a pilot randomized controlled trial (RCT) of parent group education sessions to assess the feasibility and refine the intervention to inform a full-scale multicenter RCT. The aims of the pilot are to estimate: 1. Recruitment rate, 2. Adherence rate, 3. Response rate, and 4. Retention rate. The aims for the future full-scale multicenter RCT are to assess the effect of parent group education sessions integrated into pediatric care, compared with usual care on self-management, hemoglobin A1c (HbA1c), adverse outcomes and validated measures during the transition from adolescence to adulthood. The investigators will conduct a parallel group, blinded (outcome assessors, data analysts), superiority pilot RCT of parents and their adolescents with T1D (14-16 years of age) followed at a university teaching hospital-based pediatric diabetes clinic in Montreal. Interventions will occur over 12-months. Follow-up will be to 18 months from enrollment.

The purpose of this pilot research project is to examine the impact of a low-glycemic index (GI) diet on postprandial hypotension and glucose control in individuals with chronic spinal cord injury. The objectives are: 1) To evaluate the effect of the low-GI diet on the magnitude of postprandial systolic blood pressure drop compared to a high-GI control diet. 2)To evaluate the effect of a low-GI diet on postprandial glucose and insulin responses compared to a high-GI control diet.

The goal of this clinical trial is to test ketone bodies in healthy elderly and young individuals. The main question it aims to answer are: • Do ketone bodies improve skeletal muscle function? Participants will ingest a ketone monoester and skeletal muscle function will then be evaluated by: Special magnetic imaging techniques Intravenous infusion of tracer-marked nutrients Performance tests on a ergometer bike and in a dynamometer Researchers will compare the outcomes between within the young and elderly groups and between the young and the elderly group to investigate if age has an effect on the outcomes.

This pilot study is a randomized control trial to test the effects of a 14-week home-based virtual, interactive high intensity interval training (HIIT) exercise intervention on cardiometabolic and cognitive outcomes in sedentary youth with overweight/obesity during adolescence. All participants (N=24) will complete screening via phone to determine eligibility. Eligible participants will be randomized to receive a) 14 weeks of a home-based HIIT intervention delivered via iPad or b) 14 weeks of a stretching intervention (control group). Each participant will undergo an in-lab pre- and post-test visit, where they will complete a fasting blood draw, a fitness test, and various cognitive and mental health measures.

The goal of this proposal is to determine whether the beneficial effects of NMN on metabolic function observed in rodents applies to people.

The latest international research shows that supplementation of hydrogen molecules as an aid, adjuvant, can speed up the course of the disease. The purpose of this study is to determine the safety and possible efficacy of hydrogen supplements in different dose exposures for a clinical study in rheumatologic and metabolic patients. Patients will receive a different dosage of hydrogen capsules with their conventional treatment for a month. Investigators will test for any changes in haematologic, urine analysis and health status during and following the exposure period.

Muscle tissue consists of proteins. These proteins are built up of small building blocks: amino acids. By consuming enough protein through the diet, the body is provided with enough amino acids to facilitate muscle protein building. Providing the growing world population with sufficient animal-derived protein is a challenge. Plant proteins can be produced on a more sustainable commercial scale than conventional animal-derived proteins and therefore can contribute to feeding our future population. Canola protein is a protein that is derived from rapeseed. The composition of canola seems to be comparable to that of other high-quality animal based protein sources. However, the collection of canola protein from rapeseed occurs in a special way. These treatment processes might affect canola protein digestion. The goal of this study is to investigate the most optimal way of canola protein processing on blood plasma amino acid responses. Primary objective: To assess the impact of canola protein processing on 5h postprandial plasma total amino acid incremental area under the curve (iAUC) in vivo in healthy young females. Hypothesis: it is hypothesized that the ingestion of 20g processed canola will result in greater 5h postprandial plasma total amino acid iAUC in vivo in healthy young females, when compared to the ingestion of 20g native canola protein isolate.

The minimally processed diets of our ancestors have been rapidly replaced by UPFs driving poor diet to become the leading risk factor for preventable death globally. Hence, it is essential to understand what properties of UPF are driving their overconsumption to reduce diet-related mortality. To address this gap in knowledge this proposal will test: If UPFs have a greater post meal metabolic response when compared to MPFs an essential signal for food reward Through the use of an auction task paradigm if UPFs overvalued and if this value is differentially encoded in the brain This study is a fully cross-over design in that each participant receives all conditions and therefore serves as their own control. All orders of foods will be counterbalanced. Although participants cannot be blinded to the conditions as they must be aware of the foods they are eating, they will not be made aware that the key manipulation is food processing. On different days participants will come to the lab and consume a meal containing either minimally or ultra-processed foods as determined by the widely used NOVA (not an acronym) scale. These conditions will be consumed in a whole room metabolic chamber allowing for simultaneous measurement of multiple metabolic responses (glucose, insulin, and metabolic rate). These measures will be collected for 45 min before consumption of the meal (baseline) and for 3 hours after consumption (post-prandial). All participants will also undergo a Becker-Degroot-Marschak auction paradigm that consists of foods that are either minimally or Ultra-processed in the MRI scanner. Food value will be measure in participants' willingness to pay for each food and Neural responses will be measured during presentation of the food cues.

Recent EMA and FDA approvals have made immune checkpoint inhibitors (ICI) a standard of care in cancer treatment. ICI, used alone or as a combination are now the backbone of renal cell and lung carcinoma treatment. However, a significant proportion of patients does not respond to ICI. Thus the identification of predictive response factor is a major issue. While factors associated with the tumour and its micro environment have been widely studied, factors associated with the patient such as metabolism could also affect the response to ICI and remain poorly studied. The hypothesis of the investigators is that dysmetabolims, via the induction of a chronic inflammatory state could induce a defect of lymphocyte production and activation as well as a modification of the immunogenicity of tumor cells and immune cells infiltration. The consequences could be a decrease in ICI response rate as well as an increase in immune related adverse events (irAEs). To test this hypothesis, the investigators propose a prospective bi-centric exploratory study including 60 patients treated with ICI for advanced lung or renal cell carcinoma. The data collected will be : Clinical (calorimetry, impedancemetry, survey of eating habits, tumour characteristics, epidemiological data), Biologics (baseline and 3-months plasma bio banking for standard biology, inflammation markers TNF- α, IL1-6-8-11-17, TGF-ß, TWEAK, complement study C3, C4, C4d, CH50, C1q, CD46) Primary objective is to assess the response to ICI depending on metabolic status. Secondary objectives are to study the relationships between metabolism / cytokines profile/ complement profile and ICI response. The investigators seek to generate hypotheses and to obtain exploratory data before submission of a Hospital Clinical Research Program whose objective will be to evaluate the impact of dysmetabolism on overall survival and to characterize immune and anatomopathological profiles (using DNA microarrays and flow cytometry techinques) of patients treated with ICI for renal cell or lung carcinoma.

The overall aim of this randomized controlled trial is to investigate the effects of consuming a Plant-Based Meat alternative Diet (PBMD) compared to an Animal-Based Meat Diet (ABMD) on cardiometabolic health and protein homeostasis in Chinese men and women in Singapore. This will be achieved through the following specific objectives: (1) To evaluate the effects of dietary protein source on metabolic health and glycemic control(2) To evaluate the effects of dietary protein source on risk factors of cardiovascular diseases (3) To evaluate the effects of dietary protein source on protein homeostasis and metabolism.