View clinical trials related to Prader-Willi Syndrome.
Filter by:The present project project is divided in two parts. The primary aim of the part 1 of this study is to evaluate emotional control abilities of children with Prader-Willi syndrome (PWS) aged from 9 to 15 years and to study repercussions of this supposed lack of abilities on cognitive capacities and behavioral troubles. The study also evaluate influence of the emotional symptomatology of patients on quality of parents' life and on the care of parents and scholar/institutional caregivers. In the second part of this study, the study evaluate the feasibility and the tolerance to a non-invasive device supposed to reduce emotional symptoms in this disease.
Prospective, randomized, placebo-controlled, double-blind part of the phase III trial to assess the safety and efficacy of 4 weeks oxytocin (OT) administration on oral and social skills in neonates/infants with Prader-Willi Syndrome (PWS) aged less than 3 months at inclusion. Phase III clinical trial.
Prader-Willi syndrome (PWS) is the most common syndromic cause of obesity. Individuals with PWS characteristically experience excessive weight gain and severe hyperphagia with food compulsivity in early childhood, which often leads to the onset of obesity and metabolic complications. The pathogenesis of hyperphagia and progressive weight gain in PWS is far from being understood, and thus efficacious interventions are still under development. Emerging evidence indicates an important etiological contribution of dysbiotic gut microbiota in the hyperphagia, obesity and metabolic abnormalities associated with PWS, implicating a potentially effective target for appetite control and alleviation of obesity in PWS. This study aims to evaluate whether dietary fibers can improve hyperphagia and metabolic profile in children with PWS, and further will determine if these improvements correlate with dietary-fiber-induced changes of the gut microbiota. Twenty children with PWS (age 5-17 years) will receive 3-week fiber or placebo treatment and 3-week alternate treatment with a 4-week washout period in between. A validated PWS-specific hyperphagia questionnaire will be used to assess the severity of hyperphagia in participants. Fasting blood and fecal samples will be collected for the analyses of appetite-related hormones, metabolic biomarkers, bacterial composition and gut metabolites. This study should provide potential new approaches for effective non-pharmacologic treatment of excessive weight gain and hyperphagia associated with PWS to improve overall health and quality of life in affected patients.
PATH for PWS is a study to help researchers better understand serious medical events in PWS over a 4-year period, as well as evaluate how PWS-related behaviors change over time. The data from this study is intended to inform the development and clinical trial design of potential new treatments.
This is a multi-center, multi-period study with an open-label period followed by a double-blind, placebo-controlled, randomized withdrawal period evaluating the safety and efficacy of DCCR treatment.
The investigator's recent pilot study of vagus nerve stimulation (VNS) from a surgically implanted medical device to control the excess eating behaviour characteristic of Prader-Willi Syndrome (PWS) found that it was safe and acceptable. In addition, there were unanticipated marked improvements in rates of problem behaviours, such as emotional disturbances and verbal and physical outbursts. These observations indicated the need for a trial specifically focusing on the effects of VNS on problem behaviour and also that the use of VNS might be extended to include people with other neurodevelopmental disorders, such as autism spectrum conditions (ASC). The primary aims of this study are: a) to investigate whether VNS, now given by an external medical device, is associated with a significant reduction in the number and severity of maladaptive behaviours in adults with PWS; and b) to undertake a pilot study that includes others with a different neurodevelopmental syndrome who have histories of similar behaviours. The study will be a single case cross-over design with 4 to 6 months baseline phase and a similar period of active treatment. The study cannot be blind as the stimulation is apparent but the participants will wear the device initially for four hours a day, at times convenient to them, with it switched off in the baseline phase and activated, according to standard protocols, in the treatment phase. Six adults with PWS and six with a different neurodevelopmental disorder with histories of significant problem behaviours will be included initially, with a view to extending if the analysis indicates a likely effect. Behaviours will be operationally defined and measured over time using participant and informant diaries with additional secondary outcome measures. Before and during the treatment phases autonomic nervous system and brain biomarkers will be assessed using ambulatory monitoring of heart rate variability and fMRI brain scans.
This Phase 3 study is designed to test the effectiveness of intranasal carbetocin (LV-101) in participants with Prader-Willi syndrome (PWS). Carbetocin is an oxytocin analog (a man-made chemical that is like oxytocin). This study will also evaluate the safety and tolerability of LV-101.
Prader-Willi syndrome (PWS) is a genetic disorder associated with growth hormone (GH) deficiency, central hypotonia and hyperphagia that leads to life-threatening obesity. Treatment with GH in adult patients is not well stablished in guidelines of Health National System (HNS). The investigators has experience in the study of brain connectivity in these patients in relation to satiety. To date, there is no evidence about the effect of GH on central hypotonia (brain areas related with muscle tone maintenance). So, the main objective is to examine these anatomical areas before and one year after GH treatment. Methodology: Structural and functional magnetic resonance imaging to 30 PWS patients before and after GH treatment and we will compare them to a control group. Expected results: PWS group will show abnormal functional and structural connectivity in circuitry of muscle tone maintenance that will improve after GH treatment. These favorable changes and the absence of secondary effects will help to justify the use of this treatment and its inclusion in practical clinical guidelines of HNS for the management of this syndrome in the adulthood.
Abnormal body composition with increased body fat mass and decreased lean body mass has been found in adults with Prader-Willi syndrome (PWS), contributing to reduced physical capacity and impairment. The aim of this study was to investigate whether progressive elastic band resistance training can improve physical motor performance and regional body composition in adults with PWS.
The gut microbiome has recently emerged as a major contributor to obesity, systemic inflammation, and metabolic disease. Furthermore, intestinal bacteria are crucial players in the gut-brain axis, regulating a broad range of central nervous system processes, from satiety mechanisms to anxiety and social behavior. Thus, targeting the microbiome is being actively investigated as a therapeutic strategy for a wide array of diseases, including obesity, anxiety, depression, and autism. Among all intestinal bacteria, Bifidobacterium animalis spp. lactis (BAL) has shown promise for obesity treatment in experimental animal models and human subjects, improving body composition and metabolic health, and reducing energy intake. Moreover, tryptophan metabolism, a crucial regulator of satiety mechanisms and anxiety, is a main target of BAL. Given that clinical manifestations of Prader-Willi syndrome (PWS) include hyperphagia, anxiety, altered body composition, and metabolic dysregulation, the aforementioned effects of BAL might prove highly beneficial for children with PWS. Here, the investigators will test this hypothesis by performing a randomized double-blinded placebo-controlled crossover clinical study to assess the effects of BAL supplementation on an array of clinical manifestations of PWS. Children with PWS will undergo a 3-month placebo/probiotic treatment period, a 3-month washout period, followed by a 3-month probiotic/placebo supplementation. Anthropometric, biochemical, and psychological data as well as biological samples will be obtained at the beginning of the study, and after each of the study periods, with a total of four time-points. Specifically, the investigators will determine body composition by DXA analysis; metabolic health by assessing glucose and lipid metabolic parameters as well as circulating hormonal and cytokine levels; thermoregulation by non-invasive thermal imaging; and hyperphagia and emotional and behavioral problems by applying parental-rated validated questionnaires.