View clinical trials related to Metabolic Disturbance.
Filter by:cTBS is a promising novel intervention, which has strong potential on moderating disease syndrome. However, the most effective pattern of the cTBS is still under debate. Therefore, the investigators designed this randomized controlled clinical trial to evaluate the efficacy and safety of accelerated cTBS, with 1800 stimulation per session, on intervention to metabolic side effects in individuals with schizophrenia.
Epidemiological studies have revealed that 60-80% of women with breast cancer (BC) develop metabolic disorders that are similar to those observed in conditions like type 2 diabetes. These metabolic disorders, including insulin resistance, obesity, hyperinsulinemia, and glucose intolerance, are associated with increased BC recurrence and mortality. Skeletal muscle is the major site of glucose uptake in humans. The aims of the present project are to 1) determine the involvement of insulin resistance in skeletal muscle in the metabolic disorders prevalent in BC survivors, 2) identify BC-and/or treatment-induced molecular changes in skeletal muscle from BC survivors .
Background and objective: Clozapine and olanzapine are some of the most effective antipsychotic drugs, but unfortunately, both drugs induce weight gain and conveys a high degree of metabolic disturbances. The antipsychotic-induced side-effects cause a major clinical problem among patients diagnosed with schizophrenia receiving antipsychotic treatment. Limited effects have been demonstrated for counteracting the side-effects by the switch of antipsychotic therapy, non-pharmacological/behavioural interventions or adjunct pharmacological treatments. Semaglutide, a glucagon-like peptide-1 receptor agonist (GLP-1RA,) is approved for the treatment of type 2 diabetes worldwide. The objective of the study is to investigate effects of semaglutide once-weekly vs. semaglutide placebo once-weekly on the metabolic state in prediabetic or diabetic patients with schizophrenia, who have initiated treatment with clozapine or olanzapine. Methods and analysis: Trial design, intervention and participants: The study is a 26-week, double-blinded, randomized, parallel-group, placebo-controlled, good clinical practice (GCP)-monitored, clinical trial. 104 prediabetic or diabetic patients diagnosed with a schizophrenia, age 18 years and 65 years, who have initiated of clozapine- or olanzapine-treatment within 5 years will be included in the study. The patients will be randomized to receive blinded treatment in one of the two study arms; semaglutide once-weekly vs. semaglutide placebo. The primary endpoint is the change from baseline in glycated haemoglobin A1c (HbA1c). Secondary endpoints include change in body weight, hip and waist circumference, vitals, and plasma levels of insulin, glucose, C-peptid, insulin sensitivity, beta cell function, glucagon, liver function, lipid profile, incretin hormones, lipid profile, bone makers, body composition, bone density and proteomic analyses. Additional endpoints include alcohol, tobacco and drug use, food preferences, psychopathology, activity and quality of life.
Preliminary animal studies by ourselves and others suggest that the dietary supplement, nicotinamide riboside (NR), may improve cardiac function in heart failure (HF) by increasing cellular levels of its metabolite, nicotinamide adenine dinucleotide (NAD+, NADH). This Study will address a key gap in current knowledge by assessing the mechanisms through which raising blood and myocardial NAD+ levels in humans mediates changes in mitochondrial function, protein and epigenetic modifications, as well as inflammation. Human myocardium will be obtained after 4-14 days of oral NR supplementation from advanced heart failure patients undergoing elective left ventricular assist device (LVAD) implantation. Positive results would provide evidence to proceed with further studies of NR as a mitochondria-targeted metabolic therapy in heart failure.
The overall objective of this in-lab randomized controlled trial is to test the efficacy of multi-day interruptions in sedentary behavior vs. single bouts of sustained exercise on metabolic, cognitive, affective, and cardiac autonomic nervous system responses in children with overweight and obesity who are at risk for type 2 diabetes. The use of continuous glucose monitoring will provide insight into the daily and cumulative metabolic effects of each condition that have thus far not been studied. In-lab studies demonstrating sustained efficacy of this approach in ameliorating negative effects of sedentary behaviors in children are necessary for the optimization of field-based interventions. Given the lack of success of interventions to prevent obesity-related diseases and increasing rates of type 2 diabetes in children and its related healthcare costs, this study addresses a critical public health need by testing of novel intervention strategies to reduce obesity-related diseases in children with overweight and obesity.
The Offspring Born to Mothers with Polycystic Ovary Syndrome in Guangzhou Cohort study (PCOS-BIG) was established to investigate the short- and long-term effects of intrauterine exposure to maternal PCOS on the health of offspring in Guangzhou, China. Data are collected regarding maternal PCOS subtypes, nursing, diet and education as well as health outcomes in their later life. Biological samples including blood and tissue samples are also collected from participants.
Metabolism is increasingly recognized as being highly regulated by anticipatory biological rhythms (circadian rhythms or "biorhythms"), which are driven by molecular feedback loops, and which are approximately 24 hours long ("circa diem"). These circadian rhythms exist both centrally, in the brain, but also in the periphery, and are specific to many tissues depending on their main biological function or functions. Whereas these circadian rhythms have been thoroughly characterized in other organisms, their role in humans remain poorly understood, partly because of the difficulty in studying these rhythms in peripheral tissues. The investigators therefore aim to characterize these rhythms in primarily skeletal muscle and adipose tissue in healthy young volunteers (using the so-called constant routine paradigm), and how these rhythms interact with one another at various genetic and molecular levels. At the same time, the investigators aim to study how an unhealthy vs. healthy diet can alter these circadian rhythms, and how they interact with circadian rhythms in other tissue compartments such as those expressed by blood cells.