: age = 24.8 ± 3.2 years, body weight = 61.5 ± 2.4 kg, and body height = 168.3 ± 6.3 cm). All of the players agreed to voluntarily participate in the study and signed a written informed consent. The local ethics committee (the Senate Research Ethics Committee at the University School of Physical
Search Results
The Evaluation of Changes of Angles in Selected Joints During Topspin Forehand in Table Tennis
Ziemowit Bańkosz and Sławomir Winiarski
Should Ballet Dancers Vary Postures and Underfoot Surfaces When Practicing Postural Balance?
Nili Steinberg, Gordon Waddington, Roger Adams, Janet Karin, and Oren Tirosh
, mean age = 16.14 ± 1.55), from the Australian Ballet School, were included in this study. Australian Ballet School students are selected by an extensive audition process. Students are predominantly from throughout Australia and New Zealand and from Asian countries, particularly Japan and China. For
Emerging Behavioral Flexibility in Loop Writing: A longitudinal study in 7- to 9-Year-Old Primary School Children
Ida M. Bosga-Stork, Jurjen Bosga, and Ruud G.J. Meulenbroek
The development of the ability to adapt one’s motor performance to the constraints of a movement task was examined in a longitudinal study involving 7 to-9-year-old children who were asked to perform a preparatory handwriting task. The capacity for sensorimotor synchronization was captured by the standard deviation of the relative phase between pacing signals and writing movements and the capacity to adjust wrist-finger coordination while performing repetitive movements was analyzed by autocorrelations of the vertical pen-tip displacements. While the capacity for synchronization improved with age, the autocorrelations were positive at short time lags only and hardly changed with age. A measure of “the long-term memory” of time series (Hurst exponent) confirmed that the findings were systematic rather than noise. Collectively, the results indicate that flexible movement strategies emerge early on in the first 3 years of formal handwriting education. Implications for educational and clinical practice are considered.
Somatosensory Electrical Stimulation Does Not Augment Motor Skill Acquisition and Intermanual Transfer in Healthy Young Adults—A Pilot Study
János Négyesi, Menno P. Veldman, Kelly M.M. Berghuis, Marie Javet, József Tihanyi, and Tibor Hortobágyi
Sensory input can modify motor function and magnify interlimb transfer. We examined the effects of low-intensity somatosensory electrical stimulation (SES) on motor practice-induced skill acquisition and intermanual transfer. Participants practiced a visuomotor skill for 25 min and received SES to the practice or the transfer arm. Responses to single- and double-pulse transcranial magnetic stimulation were measured in both extensor carpi radialis. SES did not further increase skill acquisition (motor practice with right hand [RMP]: 30.8% and motor practice with right hand + somatosensory electrical stimulation to the right arm [RMP + RSES]: 27.8%) and intermanual transfer (RMP: 13.6% and RMP + RSES: 9.8%) when delivered to the left arm (motor practice with right hand + somatosensory electrical stimulation to the left arm [RMP + LSES]: 44.8% and 18.6%, respectively). Furthermore, transcranial magnetic stimulation measures revealed no changes in either hand. Future studies should systematically manipulate SES parameters to better understand the mechanisms of how SES affords motor learning benefits documented but not studied in patients.
Developing Movement Efficiency Between 7 and 9 Years of Age
Ida Maria Bosga-Stork, Jurjen Bosga, and Ruud G.J. Meulenbroek
This longitudinal study examined the movement efficiency of typically developing children between 7 and 9 years of age by scrutinizing their movement amplitudes and frequencies as they settled into a loop-writing task in which both parameters were prescribed. It was hypothesized that during the first three grades at primary school children would show increasing efficiency in exploiting the inverse relationship between movement amplitude and frequency when adjusting their movement errors. Whereas a clear developmental trend showed increasing efficiency with respect to the way in which the primary school children met the amplitude constraints, a more variable pattern was found for the age-dependent adjustments to the frequency requirements. At the level of parameter-error corrections from one cycle to the next, a marginal developmental trend was observed. Results are discussed in terms of contrasting effects between educational targets and movement-efficiency principles.
Balance Training with Visual Feedback in Children with Hemiplegic Cerebral Palsy: Effect on Stance and Gait
Annick Ledebt, Jules Becher, Janneke Kapper, Rianne M. Rozendaal, Rachel Bakker, Iris C. Leenders, and Geert J.P. Savelsbergh
The aim of the present study was to examine the effects of balance training with visual feedback on stance and gait in school-age children with hemiplegic cerebral palsy. Ten participants between 5 and 11 years of age were assigned to either the training or the control group according to an aged-stratified randomization. The training corresponded to three sessions per week during six weeks. Stance and gait parameters, based on force plate data, were assessed three times in both groups: (a) at the beginning of the study (before training); (b) after six weeks; (c) after ten weeks. Spatial and temporal parameters were calculated. The results for stance showed that the training improved the performances on the tasks that were trained. More interesting, the results for gait showed that the walking pattern became more symmetrical after the training.
Temporal Consistency and Movement Effort of Repetitive Reaching During Continuation in Children and Adults
Victoria Galea, Robyn Traynor, and Michael Pierrynowski
cerebellum in timing motor and cognitive tasks . Journal of Child Neurology, 17 ( 1 ), 1 – 9 . PubMed doi:10.1177/088307380201700101 10.1177/088307380201700101 Sasaki , R. ( 1997 ). Developmental characteristics of temporal control of movement in preschool and school children of different ages
The Use of the Anchor System Reduces Postural Sway During Upright Standing Irrespective of Plantar Flexors Muscle Fatigue in Young and Older Adults
Andressa Busch Rocha Pereira and Renato Moraes
) and 19 older adults (15 females, 67.8 ± 4.9 years, 1.61 ± 0.09 m, 68.9 ± 8.7 kg) participated in this study. The ethics committee of the School of Physical Education and Sport of Ribeirão Preto, University of São Paulo, approved all the procedures involved in the present study, and participants signed
The Effects of Number and Separation of Support Lines on the Size, Velocity, and Smoothness of Handwriting
Ivonne H.F. Duiser, Annick Ledebt, John van der Kamp, and Geert J.P. Savelsbergh
Despite ubiquitous digitalization, handwriting is still one of the crucial motor skills that children acquire in primary school. It is therefore a matter of concern that a considerable number of children show unsatisfactory or dysgraphic handwriting. 1 For example, about one out of three Dutch
Effects of Wearing Slippers While Obstacle Crossing in Healthy Young Adults: Strategy for Toe Clearance Enhancement and Prevention of Slipper Loss
Kento Tanaka, Yusuke Sekiguchi, Keita Honda, and Shin-ichi Izumi
Tohoku University Graduate School of Medicine approved the study, and the subjects provided written informed consent. Gait and Obstacle Crossing Assessment The subjects walked a 7-m walkway (walking task) and a 7-m walkway with a 10-cm obstacle (obstacle crossing task) wearing slippers (slipper condition