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Showing 1-15 of 15 trials
NCT07083726
The purpose of this study is to develop an AI-based automated motor function assessment system (AIMAS) to improve early identification of developmental coordination disorder (DCD) in school-age children. The main hypothesis for this study is: Integrating AI into motor skill assessments will enhance the reliability, validity, efficiency, and accuracy of evaluating motor performance in children aged 6 to 12.
NCT06959329
The goal of this clinical trial is to evaluate whether intensive sensory stimulation therapy can improve upper limb motor skills and sensory function in children aged 12-16 years with severe symptoms of Developmental Coordination Disorder (DCD). The main questions it aims to answer are: 1. Will children with DCD who undergo intensive sensory stimulation therapy show greater improvement in upper limb motor function compared to those receiving standard therapy? 2. Will intensive sensory stimulation therapy lead to better sensory function outcomes, including joint position sense, resistance sense, pressure sense, temperature perception, and two-point discrimination? Researchers will compare children receiving intensive sensory stimulation therapy to those receiving standard therapy without intensive sensory stimulation to see if the targeted intervention results in superior improvements in motor and sensory function.
NCT06246318
The aim of the study is to examine the effect of VR application on motor, cognitive and sensory-perceptual skills, and activity and participation levels in children with DCD. The hypotheses on which the study proposal is based are as follows: 1. H0: VR application has no effect on motor skills in children with DCD. H1: VR application has an effect on motor skills in children with DCD. 2. H0: VR application has no effect on cognitive skills in children with DCD. H1: VR application has an effect on cognitive skills in children with DCD. 3. H0: VR application has no effect on sensory-perception skills in children with DCD. H1: VR application has an effect on sensory-perception skills in children with DCD. 4. H0: VR application has no effect on the functional independence levels in daily living activities in children with DCD. H1: VR application has an effect on the functional independence levels in daily living activities in children with DCD. 5. H0: VR application has no effect on participation levels in children with DCD. H1: VR application has an effect on participation levels in children with DCD.
NCT04126395
This study compares motor development in three groups of infants (controls, DCD, DCD+ASD) before the age of 2 years using retrospective video analysis of infants in home video contexts.
NCT06161168
One in 60 children have a physical disability that can impact activities and participation. Occupational and physical therapies can be of great benefit, but are costly and difficult to access. Working with children, parents and clinicians, the investigators developed a mixed reality video game, Bootle Blast, which children can play to develop motor skills. Using a 3D sensor, Bootle Blast tracks movements and manipulation of real-life objects. Since 2017, Bootle Blast has been used in clinics by Holland Bloorview, Canada's largest children's rehabilitation hospital. Home use of Bootle Blast has resulted in positive clinical outcomes for children with cerebral palsy. Bootle Blast is not yet commercially available and has yet to be trialed in "real-world" contexts. To understand real-world implementation, Bootle Blast will be trialed for 14 weeks in the homes of 60 young people (6 to 17 years) with any motor condition that could be addressed by the Bootle Blast system, regardless of their diagnosis. The investigators will assess feasibility (e.g. independent home setup, ability to set/meet self-directed play time goals), enablers/barriers to use, and perceived value. User experience will inform product, training and resource development. The research team combines expertise in engineering design, medicine, physiotherapy, qualitative methods, commercialization, knowledge translation, and includes young people with lived experience.
NCT05079490
This research project aims to examine the impact of motor coordination deficits and the effects of motor intervention on preschool-aged children's perceived competence, health-related physical fitness, activity participation and physical activity. Eighty children, aged 4-6 years,with or without motor coordination deficits will be recruited and assigned to to motor intervention (DCD-t), control 1 (DCD-c) or control 2 (TD) group. Children in the intervention group will receive motor intervention for 12 weeks. All children will be assessed at baseline, 0-, 3- and 6-month post-intervention.
NCT03595826
This study aims to establish and present the prevalence figures and demographics of the co-morbidity of ADHD and DCD. It further aims to design an exercise intervention, to be utilised in the management of the symptoms of both conditions. Furthermore, it aims at establishing the efficacy of this exercise intervention, when compared with the current and most commonly used intervention, that is: neurostimulant drugs.
NCT04490187
Children with a neurodevelopmental condition called developmental coordination disorder (DCD) struggle to learn motor skills and perform daily activities, such as tying shoelaces, printing, riding a bicycle, or playing sports. Evidence suggests that motor-based interventions combined with non-invasive brain stimulation to the motor cortex (transcranial direct-current stimulation, tDCS) has been effective in improving motor skills in children with cerebral palsy and other neurodevelopmental disorders, but few studies have examined tDCS in chidlren with DCD. The purpose of this randomized, blinded, sham-controlled interventional trial is to explore the effectiveness of anodal tDCS over M1 combined with a motor learning task in increasing motor skill learning in children with DCD.
NCT04122820
To evaluate, in primary care, the sensitivity of Heterophory-Vertical-Labile (HV-Labile) in ambulatory screening for Specific Learning Disabilities (SLD) and Developmental Coordination Disorder (DCD). in children aged 8 to 12 years.
NCT04123912
Aim: To investigate the effectiveness of a novel elastic taping-augmented functional movement power training (KT-FMPT) program in improving leg muscular performance, body balance, motor proficiency and functional independence in children with developmental coordination disorder (DCD). Methodology: In this clinical trial, twenty children with DCD (aged 6-12) will be randomly assigned to either a KT-FMPT group or a placebo control group. Children in the KT-FMPT and control groups will receive elastic taping-augmented FMPT and general jogging exercise with non-elastic taping, respectively, for 12 weeks (2 hours/week). Major outcome measures: body balance and leg muscle activity will be measured via muscle sensors along with a force platform. Secondary outcome measures: leg muscle strength, motor proficiency and functional independence will be assessed by a digital dynamometer, the Movement Assessment Battery for Children-2 and Pediatric Evaluation of Disability Inventory, respectively (before- and after-intervention measurements). Significance: The KT-FMPT group is predicted to display much better muscular and motor performances than the control group. This novel training program can be readily adopted in clinical, school, or home settings to improve functional independence in children with DCD, an outcome with positive socioeconomic implications. Moreover, study findings will inspire future research work in children with other childhood-onset disabilities.
NCT03150784
The importance of play and physical activity include many benefits on positively improving health and well-being, enhancing children's and young people's thinking and performance in school, improving their sleep and enabling confidence and skill building. However, some children find it hard to learn and perform motor skills, and are at risk of decreased participation in sports and physical activity and subsequently decreased physical fitness and overall health and well-being. Previous studies from the research group have explored the impact and recovery following acute exercise at different intensities in children and adolescents with and without movement difficulties. Following this, a pathway promoting physical activity and engagement has been successfully established within schools for those with and without movement difficulties. Taking the previous studies further, we want to specifically focus on the children's performance and learning of a sporting skill, such as stepping, and the associated brain activity changes, using available high resolution imaging techniques. This will help us understand how these children perform and learn motor and sporting skills. Evidence obtained from imaging alongside measures of movement has helped the development of optimal therapeutic approaches for other conditions such as stroke and Parkinson's and will help us to develop approaches to help children best learn motor skills and hence gain confidence in performing sporting activities.
NCT02393729
All the studies underlined the high frequency of co-morbid associations in specific learning disorders. Understanding the reasons for these associations could enable us to determine the cerebral bases that underlie each disorder. Their frequent association suggests the etiological bases are partly common, it seems logical to turn to explanatory models of various common specific disorders. The model recently proposed by Nicholson \& Fawcett (2007) suggests a specific disorder of procedural learning. But the brain networks involved in this learning could be achieved separately. We intend therefore to study the neural networks involved in learning procedural and compare networks recruited among children with specific learning disorder alone or in combination (co-morbidity). The children included in the study have either a Developmental Dyslexia or a Developmental Coordination Disorder, or both. The procedure includes a neuropsychological evaluation and a brain MRI study with a morphological and a functional part. During fMRI the child realizes a automated motor task contrasting with a task involving learning procedural.
NCT02904980
The aim of this study was to integrate a gaze training intervention (i.e., quiet eye training; QET) that has been shown to improve the throwing and catching skill of children with Developmental Coordination Disorder (DCD), within an approach (i.e., group therapy) that might alleviate the psychosocial influence of these motor skill deficits.
NCT02504385
The subjet of this study is to explore the effect of using virtual reality environment at the clinic and at home (using Timocco) on the motor and participation abilities of children with DCD (Developmental Coordination Disorder). The study will examine the efficacy of using virtual reality gaming environment (Timocco) for treating children with DCD and the use of remote therapy, by shifting the focus of therapy from the clinic to the home environment, using the remote control system of Timocco for home practice.
NCT01207544
Children with developmental coordination disorder (DCD) often have poor postural control and motor skills that affect their activities of daily living and participation in school activities. The aim of this randomized controlled trial is to compare the effects of fitball training versus task-oriented motor training for children with DCD.