disturbance and maintain balance ( Ivanenko & Gurfinkel, 2018 ). Children with Developmental Coordination Disorder (DCD) have problems in acquisition and execution of motor skills, like balance, compared with their peers ( American Psychiatric Association, 2013 ). Delays in anticipatory postural adaptations
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Short- and Long-Term Changes in Balance After Active Video Game Training in Children With and Without Developmental Coordination Disorder: A Randomized Controlled Trial
Tatiane Targino Gomes Draghi, Bouwien Smits-Engelsman, Daniela Godoi-Jacomassi, Jorge Lopes Cavalcante Neto, Dorothee Jelsma, and Eloisa Tudella
Assessing Hopping Developmental Level in Childhood Using Wearable Inertial Sensor Devices
Ilaria Masci, Giuseppe Vannozzi, Nancy Getchell, and Aurelio Cappozzo
Assessing movement skills is a fundamental issue in motor development. Current process-oriented assessments, such as developmental sequences, are based on subjective judgments; if paired with quantitative assessments, a better understanding of movement performance and developmental change could be obtained. Our purpose was to examine the use of inertial sensors to evaluate developmental differences in hopping over distance. Forty children executed the task wearing the inertial sensor and relevant time durations and 3D accelerations were obtained. Subjects were also categorized in different developmental levels according to the hopping developmental sequence. Results indicated that some time and kinematic parameters changed with some developmental levels, possibly as a function of anthropometry and previous motor experience. We concluded that, since inertial sensors were suitable in describing hopping performance and sensitive to developmental changes, this technology is promising as an in-field and user-independent motor development assessment tool.
Visuomotor Adaptation in Children with Developmental Coordination Disorder
Florian A. Kagerer, Jin Bo, Jose L. Contreras-Vidal, and Jane E. Clark
Although one of the criteria for the diagnosis of developmental coordination disorder (DCD) suggests learning impairments, there is a lack of studies investigating motor adaptation in these children. This study examined the ability of 7 children with DCD to adapt to a novel visuomotor relationship by exposing them to a 45° visual feedback rotation while they performed a center-out drawing task, and compared their performance with that of 7 normally developing children. The results show that the children with DCD were less affected by the feedback distortion than the control children, and did not show aftereffects, suggesting they had a less well-defined internal model. A principal component analysis of the performance variables during early and late exposure showed that the variables accounting for most of the variance in the trajectories are different between the 2 groups, suggesting that underlying control processes might operate differently in the 2 groups of children.
Two-Handed Catching in Children with Developmental Coordination Disorder
Sarah Astill and Andrea Utley
This study investigated the nature and extent of inter and intralimb coupling of the upper limbs in children with developmental coordination disorder (DCD) and their age-matched controls (AMC) when catching a ball two-handed. Sixteen children (8 DCD, 8 AMC) volunteered for the study; parental consent was gained for each child. Using standard video analysis and 3D kinematic analysis, all children were examined performing 30 two-handed catches. Video analysis showed that the AMC children caught more balls than the DCD children (p ≤ .005). Analyses of the kinematic data showed DCD participants exhibit a greater degree of linkage both between and within limb than the AMC participants (p ≤ .01), but the AMC participants demonstrate more intra individual variability in these linkages (p ≤ .01). The data shows that both DCD and AMC children couple their limbs to exert control over redundant degrees of freedom when catching a ball two-handed. However, DCD children show little capacity to vary their motor behavior exhibiting a less adaptable movement system, which in turn affects their success at the task.
Stability of Rhythmic Finger Movements in Children with a Developmental Coordination Disorder
M.J.M. Volman and Reint H. Geuze
The stability of single and bimanual (i.e., in-phase and antiphase) rhythmic finger movements was studied in 24 children with a developmental coordination disorder (DCD) and 24 matched controls from a dynamic pattern perspective. Stability was assessed by applying perturbations and measuring the time the system needed to return to its initial stability (i.e., the relaxation time). In addition, fluctuations of the patterns were measured. For antiphase coordination patterns, the frequency at which loss of stability occurred was also determined. Children with DCD displayed less stable single and bimanual rhythmic coordination patterns than control children. Further, within the DCD group, 9 children were identified as having particularly poor bimanual coordination stability. Individual differences suggested that variability of individual limb oscillations might have contributed to this poorer interlimb coordination stability. Findings were discussed in relation to a previous study on DCD in which the Wing-Kristofferson timekeeper model was applied.
The Visual Regulation of Goal-Directed Reaching Movements in Adults with Williams Syndrome, Down Syndrome, and Other Developmental Delays
Digby Elliott, Timothy N. Welsh, James Lyons, Steve Hansen, and Melinda Wu
Williams syndrome (WS) is a genetic disorder that causes general cognitive and developmental delays. Compared to persons with Down syndrome (DS) at the same developmental level, individuals with WS generally exhibit superior expressive language abilities, but have difficultly with tasks that require the visual control of movement. Recently it has been suggested that this latter problem reflects a deficit in dorsal stream function. In the present study, this hypothesis was investigated by examining the kinematics of rapid aiming movements. The performance of the participants with WS (n = 4) was compared to the performance of participants with DS (n = 8), with undifferentiated developmental delays (n = 8), and from the general population (n = 8). In partial support of the dorsal deficit hypothesis, the results suggest that, compared to people from the other groups, the participants with WS had difficulty in preparing their movements on the basis of the visual and other information available to them. This was particularly evident in their inability to properly scale movement velocities to the amplitude of the movements and in the number of discrete corrections made during movement execution.
Fractionated Reflex and Reaction Times in Children with Developmental Coordination Disorder
Annette J. Raynor
The patellar tendon reflex (PTR) and simple visual reaction time (VRT) were fractionated and compared in 40 subjects with developmental coordination disorder (DCD) and normal coordination (NC) in two age groups. Four equal groups of subjects, 6 years DCD (6DCD), 6 years NC (6NC), 9 years DCD (9DCD), and 9 years NC (9NC) were compared using ANOVA for the main effects of coordination and age. PTR and its components of reflex latency and motor time were not significantly affected by the level of coordination; however, a significant coordination by age interaction (p < .05) revealed an increased motor time in the 6DCD group. VRT, premotor time, and motor time were all significantly (p < .05) increased in children with DCD; the increased VRT and premotor time support earlier findings, whereas the increased motor time has not previously been found. These findings suggest that the processing of reflexive and volitional responses by children with DCD differs from that of their NC peers.
Differences in Gait between Children with and Without Developmental Coordination Disorder
Frederik J. A. Deconinck, Dirk De Clercq, Geert J. P. Savelsbergh, Rudy Van Coster, Ann Oostra, Griet Dewitte, and Matthieu Lenoir
In the present study the walking pattern of 10 children with developmental coordination disorder (DCD) was investigated and compared to that of 10 typically developing, matched control children. All children walked at a similar velocity that was scaled to the length of the leg on a motor-driven treadmill. Three-dimensional kinematics were recorded with a motion capture digital camera system. The spatiotemporal parameters of the gait pattern revealed that children with DCD walked with shorter steps and at a higher frequency than the typically developing children. In addition, the children with DCD exhibited a body configuration that demonstrated increased trunk inclination during the entire gait cycle and enhanced during the entire gait cycle. At toe-off a less pronounced plantar flexion of the ankle was observed in children with DCD. In conclusion, it appeared that children with DCD make adaptations to their gait pattern on a treadmill to compensate for problems with neuromuscular and/or balance control. These adaptations seem to result in a safer walking strategy where the compromise between equilibrium and propulsion is different compared to typically developing children.
Perceived Hole Size, Performance, and Body Movement During Putting in Children With and Without Probable Developmental Coordination Disorder
Fu-Chen Chen and Sheng-Kuang Wu
The purpose of this study was to examine the relationships between perceived hole size (perception), performance, and body movement (action) in golf putting for children with probable developmental coordination disorder (DCD) and typically developing children (TDC). Forty-eight children (24 probable DCD, 24 TDC) performed putting in easy and hard conditions. Body movement was measured during putting, performance was measured as the distance between ball and hole, and perceived hole size was recorded using a Microsoft Paint drawing exercise 1 m away from the hole. The present results revealed that perceived hole size was positively related to putting performance, body movement was negatively associated with putting performance, and that there were negative correlations between body movement and perceived hole size. While children with probable DCD tended to perceive the hole as smaller, perform worse, and show more body movement, TDC exhibited the opposite. These findings help characterize the relationships between perception, performance, and action in children with probable DCD and TDC during golf putting.
Table Tennis, as a Method of Sensorimotor Training, Induces Haptic and Motor Gains in Children With a Probable Developmental Coordination Disorder
Yu-Ting Tseng, Chia-Liang Tsai, Tzu Hsuan Wu, Yi-Wen Chen, and Yi-Hsuan Lin
, tying shoelaces, holding a cup, and catching a ball) depends on haptic functions ( Bushnell & Boudreau, 2013 ; Lederman & Klatzky, 2009 ; Müürsepp et al., 2012 ). Developmental coordination disorder (DCD) is a neurodevelopmental disorder that affects 5%–6% of school-aged children ( American