View clinical trials related to Down Syndrome.
Filter by:The aim of the study is to evaluate the clinical efficacy of a known diuretic drug, Bumetanide, in terms of improvement of memory and psychological functioning in children and adolescents with Down syndrome (DS), in order to develop therapeutic strategies for cognitive and psychopathology aspects associated with the syndrome. The study also aims to identify possible predictors and biological and genetic markers related to the efficacy of the treatment. Recently, preliminary studies conducted on the animal model of Down syndrome have proven the efficacy of the drug Bumetanide in counteracting some brain anomalies related to communication between nerve cells (synaptic transmission) typical of the syndrome, with the effect of improving memory skills. Behaviour-enhancing effects have also been found in preliminary studies in humans with other neurodevelopmental disorders (e.g., autism spectrum disorders). The drug Bumetanide could therefore be useful in counteracting the biological mechanisms that cause some cognitive deficits associated with Down syndrome. The potential of this therapeutic approach will be tested through a clinical trial in a population of children and adolescent patients with DS, in a randomized placebo-controlled trial with a three-month treatment with Bumetanide. Participants will be randomly assigned to the experimental group that will receive the treatment (Bumetanide) vs the control/comparison group that will receive the placebo. Bumetanide is a diuretic drug that has been widely used in humans in the past with few side effects, is orally active, and is very inexpensive. 64 participants will be recruited.
Children with Down syndrome (DS) face life-long struggles with verbal communication. Babble and speech sound development is delayed, and speech can be difficult to understand. Words emerge late, at 21 months on average, compared to 12 months for typical peers, and vocabulary and grammar can remain limited throughout adulthood. Because DS is diagnosed at or even before birth, these difficulties are predictable; yet despite this prognostic knowledge, systematic and sustained proactive interventions have not yet been developed: Most children with DS are not assessed and treated for speech and language delays until age 2 to 4 years. This presents an untapped opportunity space to conduct a clinical trial of a proactive intervention in earliest infancy with the goal of building resilience against the anticipated difficulties. The intervention trialed here is a modified version of Babble Boot Camp (BBC), a proactive speech and language intervention originally developed for young infants with classic galactosemia (CG) (NIH 5R01HD098253). CG is a metabolic disease that, similar to DS, is diagnosed at birth and poses risks for severe speech and language delays. BBC is implemented by a speech-language pathologist who, via telehealth, trains parents to incorporate skill-building activities and routines into their daily lives at home. For the present study, 20 children with DS age birth to 12 months will be recruited and randomized into two treatment arms. One group will receive weekly individualized parent sessions and close monitoring of the child's progress. The second group will receive the same content but at a lower intensity and dosage, via monthly parent group meetings. Both groups will receive their intervention for 10 months. Specific aims are to quantify benefits for babble, speech production, and receptive and expressive language and to investigate associations between conversational dynamics in child-adult interactions and the children's speech and language. Outcomes in speech and language skills will show relative feasibility and benefits for each of these treatment modalities and motivate a larger clinical trial, with the ultimate goal of changing the way infants with DS receive support in their speech and language development, from a deficit-based, remedial model to a proactive one.
Down Syndrome is a congenital disorder resulting from the trisomy of the human chromosome 21, which will determine, among other characteristics, intellectual disability and growth retardation. Reduced muscular strength, cardiovascular capacity, sleep problems, and impaired walking performance are also observed in Down syndrome participants. The estimated global prevalence is around 0.1% of live births. Children with Down's syndrome (DS) often have greater postural sway and delay in motor development. Muscle weakness and hypotonia, particularly of the lower extremities are theorized to impair their overall physical health and ability to perform daily activities. Posture, balance, and movement issues are common in children with Down syndrome. The purpose of this study is to examine the effects of Lower Limb Fitness Program on dynamic balance and mobility in children with Down Syndrome. This study explore that Lower Limb Fitness Program could improve the dynamic balance and mobility in children with DS.
The study aims to compare the effects of orofacial therapy and therapeutic yoga on swallowing, sleep habits, and quality of life in children with Down syndrome.
One of the major causes of cognitive disorders limiting the learning abilities of children with Down's syndrome is excess activity of the DYRK1A protein kinase, whose gene is located on chromosome 21. Consequently, variations in the level of phosphorylation, and hence activity, of DYRK1A target proteins involved in synaptic transmission, could identify mechanisms underlying these cognitive disorders. Several studies have shown that plasma proteins can reflect a pathophysiological brain state. The investigators plan to carry out a phosphoproteomic study to determine the phosphorylation profile of plasma proteins in children with Down's syndrome, and identify potential DYRK1A-dependent pathophysiological mechanisms and biomarkers involved in the natural course of cognition in children with Down's syndrome.
The purpose of this study is to systematically evaluate the results of medical investigations to identify symptom and biological patterns and common etiologies of neurodevelopmental disorders.
Leucettinib-21 First-in-Human Phase 1 Study in 4 Parts: Single (Part 1) and Multiple (Part 3) Ascending Doses, and Food-Effect (Part 2) in Healthy Subjects, and Single Dose (Part 4) in People with Down Syndrome (DS) and Alzheimer's Disease (AD). For Parts 1, 3 and 4, safety and tolerability of an oral administration of Leucettinib-21 will be assessed as primary objectives. Pharmacokinetics and pharmacodynamic biomarkers will be investigated as secondary objectives. For Part 2, the effect of high fat meal will be evaluated on the pharmacokinetics parameters after an oral administration of Leucettinib-21.
The objective is to compare the impact of standard infant physical therapy and the family-centered program, Coping with and Caring for Infants with Special Needs (COPCA), on infants born with Down syndrome. This is a randomized controlled trial that will be carried out in the patients' homes and outpatient settings in Spain between January 2024 and March 2024. An evaluation battery will be used that includes child and family outcomes and video analysis of therapy sessions. The Infant Motor profile will be the primary outcome instrument.
To realize a sleep phenotyping in a population with Down syndrome, its determinants, and the consequences of these disorders, with a specific focus on sleep apnea syndrome.
The purpose of this study is to assess whether oxygen supplementation during sleep improves working memory and other clinical and patient-reported outcomes among children who have Down Syndrome (DS) with moderate to severe Obstructive Sleep Apnea (OSA).