Abstract

Although the neural bases of the brain associated with movement disorders in children with developmental coordination disorder (DCD) are becoming clearer, the information is not sufficient because of the lack of extensive brain function research. Therefore, it is controversial about effective intervention methods focusing on brain function. One of the rehabilitation techniques for movement disorders involves intervention using motor imagery (MI). MI is often used for movement disorders, but most studies involve adults and healthy children, and the MI method for children with DCD has not been studied in detail. Therefore, a review was conducted to clarify the neuroscientific basis of the methodology of intervention using MI for children with DCD. The neuroimaging review included 20 magnetic resonance imaging studies, and the neurorehabilitation review included four MI intervention studies. In addition to previously reported neural bases, our results indicate decreased activity of the bilateral thalamus, decreased connectivity of the sensory-motor cortex and the left posterior middle temporal gyrus, bilateral posterior cingulate cortex, precuneus, cerebellum, and basal ganglia, loss of connectivity superiority in the abovementioned areas. Furthermore, reduction of gray matter volume in the right superior frontal gyrus and middle frontal gyrus, lower fractional anisotropy, and axial diffusivity in regions of white matter pathways were found in DCD. As a result of the review, children with DCD had less activation of the left brain, especially those with mirror neurons system (MNS) and sensory integration functions. On the contrary, the area important for the visual space processing of the right brain was activated. Regarding of characteristic of the MI methods was that children observed a video related to motor skills before the intervention. Also, they performed visual-motor tasks before MI training sessions. Adding action observation during MI activates the MNS, and performing visual-motor tasks activates the basal ganglia. These methods may improve the deactivated brain regions of children with DCD and may be useful as conditioning before starting training. Furthermore, we propose a process for sharing the contents of MI with the therapist in language and determining exercise strategies.

Highlights

  • Developmental coordination disorder (DCD) manifests as ‘‘clumsiness and slowness or inaccuracy of motor skills and defective acquisition and performance of coordination skills, which interfere with activities of daily living.’’ The prevalence is 5–6% in children aged 5–11 years, and the sex ratio ranges from 2:1 to 7:1

  • According to a report by Debrabant et al (2016) the fractional anisotropy (FA) of the left retrolenticular limb of the internal capsule was lower in children with DCD compared to those with typical development (TD), while the radial diffusivity was increased; the same trend was observed on the right

  • Reduction of gray matter volume in the right superior frontal gyrus (SFG) and middle frontal gyrus (MFG) and lower FA and axial diffusivity in regions of white matter pathways were found in DCD

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Summary

Introduction

Developmental coordination disorder (DCD) manifests as ‘‘clumsiness and slowness or inaccuracy of motor skills and defective acquisition and performance of coordination skills, which interfere with activities of daily living.’’ The prevalence is 5–6% in children aged 5–11 years, and the sex ratio ranges from 2:1 to 7:1 (male:female; American Psychiatric Association, 2013). Underdeveloped motor skills make it difficult to perform the basic movements required for daily activities (Wilson et al, 2013; Adams et al, 2016a). Reduced participation in play and group sports causes physical problems such as weakness and obesity (Watkinson et al, 2001; Mandich et al, 2003; Cairney et al, 2005). Self-esteem and self-affirmation may be impaired, and secondary disorders such as depression and anxiety-related mental disorders have been recognized (Poulsen et al, 2008; Lingam et al, 2012; Missiuna et al, 2014; Caçola, 2016; Cairney et al, 2016)

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