# Home-Based Immersive Virtual Reality to Improve Motor Performance in Children and Adolescents With Developmental Coordination Disorder: Crossover Study

**Authors:** Mohammed Alharbi, David Harris, Helen Dodd, Greg Wood, Gavin Buckingham

PMC · DOI: 10.2196/84995 · JMIR Serious Games · 2026-03-10

## TL;DR

This study explores how home-based immersive VR rhythm games can improve motor skills and enjoyment in children with coordination disorders.

## Contribution

It provides early evidence that immersive VR games may offer better short-term motor improvements than tablet games for children with DCD.

## Key findings

- VR gameplay led to greater improvements in motor performance compared to tablet-based gameplay.
- Participants reported higher enjoyment and motivation during VR sessions.
- No significant changes were observed in the tablet-based gameplay condition.

## Abstract

Children with developmental coordination disorder (DCD) experience motor difficulties that limit daily activities and reduce physical activity enjoyment. Immersive virtual reality (VR) offers the potential for feedback-rich movement practice, but evidence for these effects in DCD remains limited.

This study aims to investigate the effects of an immersive VR rhythm game compared to tablet-based gameplay within a home-based setting on motor performance, enjoyment, and motivation in children and adolescents with DCD.

This crossover study included 27 participants (21 boys and 6 girls) aged 10 to 16 years with DCD who completed 2 home-based interventions, each delivered over 5 consecutive days: VR gameplay using Beat Saber (Beat Games) and tablet-based gameplay using Cut the Rope (ZeptoLab). Participants were recruited in England using convenience sampling via social media; eligible participants were aged 10 to 16 years, met research criteria for DCD based on a Developmental Coordination Disorder Questionnaire screening, and had no alternative neurological or musculoskeletal diagnosis. Each condition required at least 30 minutes of daily gameplay and was separated by a 2-week or more washout period. Motor performance was assessed pre- and postintervention using the Movement Assessment Battery for Children, Third Edition (MABC-3) and the Box and Block Test. Enjoyment was measured pre- and postintervention using the Physical Activity Enjoyment Scale. Participants also rated their motivation and feelings during each gameplay session. Repeated-measures ANOVAs and paired-samples 2-tailed t tests (α=.05) were used to examine the data.

For MABC-3 domains, condition × time interactions were nonsignificant, although exploratory within-condition analyses showed pre-post improvements in the VR condition. For the Box and Block Test, condition × time interactions were significant for both hands, with a greater degree of pre-post improvement in VR than tablet-based gameplay. In the VR condition, mean block transfer increased for the dominant hand (ΔM 5.93, 95% CI 3.49‐8.36; t26=−4.99; P<.001; Cohen d=0.96) and the nondominant hand (ΔM 5.11, 95% CI 2.65‐7.57; t26=−4.27; P<.001; Cohen d=0.82), whereas no significant changes were observed in the tablet condition (all P≥.36). VR gameplay also yielded higher enjoyment, and children reported higher motivation and feeling ratings across VR sessions than tablet sessions.

This study, in contrast to most of the existing literature on nonimmersive technologies, examined the effect of a home-based immersive VR rhythm game intervention for children and adolescents with DCD. This study provides early evidence that this VR rhythm game was engaging and may support greater short-term improvements in motor performance than tablet gameplay. These findings suggest home-based immersive VR rhythm games could be a practical adjunct to pediatric rehabilitation to increase movement practice and motivation, although larger and longer trials are needed to confirm clinical impact and identify which game features drive this benefit.

## Linked entities

- **Diseases:** developmental coordination disorder (MONDO:0004922)

## Full-text entities

- **Diseases:** brain injury (MESH:D001930), MABC-3 (MESH:C537153), depressed (MESH:D003866), head-neck discomfort (MESH:D006258), Mental Disorders (MESH:D001523), cerebral palsy (MESH:D002547), PACES (MESH:C538175), autism spectrum disorder (MESH:D000067877), neurological or musculoskeletal conditions (MESH:D009140), motor coordination difficulties (MESH:D001259), motion sickness (MESH:D009041), neurodevelopmental condition (MESH:D020763), motor (MESH:D000068079), dyspraxia (MESH:D001072), DCD (MESH:D019957), muscular dystrophy (MESH:D009136), Difficulties (MESH:D051346), fatigue (MESH:D005221)
- **Chemicals:** BBT (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Cell lines:** MABC-2 — Homo sapiens (Human), Colon carcinoma, Cancer cell line (CVCL_A628)

## Full text

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## Figures

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## References

70 references — full list in the complete paper: https://tomesphere.com/paper/PMC12990058/full.md

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Source: https://tomesphere.com/paper/PMC12990058