Showing posts with label children. Show all posts
Showing posts with label children. Show all posts

Thursday, 3 January 2013

Video game-based coordinative training improves ataxia in children with degenerative ataxia.

Neurology. 2012 Nov 13;79(20):2056-60.
Ilg W, Schatton C, Schicks J, Giese MA, Schöls L, Synofzik M.

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Abstract
OBJECTIVE: Degenerative ataxias in children present a rare condition where effective treatments are lacking. Intensive coordinative training based on physiotherapeutic exercises improves degenerative ataxia in adults, but such exercises have drawbacks for children, often including a lack of motivation for high-frequent physiotherapy. Recently developed whole-body controlled video game technology might present a novel treatment strategy for highly interactive and motivational coordinative training for children with degenerative ataxias.

METHODS: We examined the effectiveness of an 8-week coordinative training for 10 children with progressive spinocerebellar ataxia. Training was based on 3 Microsoft Xbox Kinect video games particularly suitable to exercise whole-body coordination and dynamic balance. Training was started with a laboratory-based 2-week training phase and followed by 6 weeks training in children's home environment. Rater-blinded assessments were performed 2 weeks before laboratory-based training, immediately prior to and after the laboratory-based training period, as well as after home training. These assessments allowed for an intraindividual control design, where performance changes with and without training were compared.

RESULTS: Ataxia symptoms were significantly reduced (decrease in Scale for the Assessment and Rating of Ataxia score, p = 0.0078) and balance capacities improved (dynamic gait index, p = 0.04) after intervention. Quantitative movement analysis revealed improvements in gait (lateral sway: p = 0.01; step length variability: p = 0.01) and in goal-directed leg placement (p = 0.03).

CONCLUSIONS: Despite progressive cerebellar degeneration, children are able to improve motor performance by intensive coordination training. Directed training of whole-body controlled video games might present a highly motivational, cost-efficient, and home-based rehabilitation strategy to train dynamic balance and interaction with dynamic environments in a large variety of young-onset neurologic conditions.

CLASSIFICATION OF EVIDENCE: This study provides Class III evidence that directed training with Xbox Kinect video games can improve several signs of ataxia in adolescents with progressive ataxia as measured by SARA score, Dynamic Gait Index, and Activity-specific Balance Confidence Scale at 8 weeks of training.

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Wednesday, 2 January 2013

Physiologic Responses and Energy Expenditure of Kinect Active Video Game Play in Schoolchildren.

Stephen R. Smallwood, MSc; Michael M. Morris, MSc; Stephen J. Fallows, PhD; John P. Buckley, PhD

Archives of Pediatric and Adolescent Medicine. 2012;166(11):1005-1009.

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Abstract

OBJECTIVE To evaluate the physiologic responses and energy expenditure of active video gaming using Kinect for the Xbox 360.

DESIGN Comparison study.

SETTING Kirkby Sports College Centre for Learning, Liverpool, England.

PARTICIPANTS Eighteen school children (10 boys and 8 girls) aged 11 to 15 years.

MAIN EXPOSURE A comparison of a traditional sedentary video game and 2 Kinect activity-promoting video games, Dance Central and Kinect Sports Boxing, each played for 15 minutes. Physiologic responses and energy expenditure were measured using a metabolic analyzer.

MAIN OUTCOME MEASURES Heart rate, oxygen uptake, and energy expenditure.

RESULTS Heart rate, oxygen uptake, and energy expenditure were considerably higher (P < .05) during activity-promoting video game play compared with rest and sedentary video game play. The mean (SD) corresponding oxygen uptake values for the sedentary, dance, and boxing video games were 6.1 (1.3), 12.8 (3.3), and 17.7 (5.1) mL · min-1 · kg-1, respectively. Energy expenditures were 1.5 (0.3), 3.0 (1.0), and 4.4 (1.6) kcal · min-1, respectively.

CONCLUSIONS Dance Central and Kinect Sports Boxing increased energy expenditure by 150% and 263%, respectively, above resting values and were 103% and 194% higher than traditional video gaming. This equates to an increased energy expenditure of up to 172 kcal · h-1 compared with traditional sedentary video game play. Played regularly, active gaming using Kinect for the Xbox 360 could prove to be an effective means for increasing physical activity and energy expenditure in children.

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