TY - JOUR AU - Sherrington Catherine AU - Smith S. AU - Studenski S. AU - Schoene D. AU - Lord S. AB -
OBJECTIVE: This series of studies was conducted to develop and establish characteristics of exercise videogame play in older adults. The videogame was a modified version of the popular Dance Dance Revolution (DDR; Konomi). METHODS: Participants aged >/=70 were asked to make simple step movements in response to vertically drifting arrows presented on a video screen. Step responses were detected by a modified USB DDR mat, and characteristics of stepping performance such as step timing, percentage of missed target steps and percentage of correct steps were recorded by purpose-built software. Drift speed and step rate of visual stimuli were modified to increase task difficulty. RESULTS: Significant linear relationships between stepping performance and stimulus characteristics were observed. Performance of older adults decreased as stimulus speed and step rate were increased. Optimal step performance occurred for a stimulus speed of 17 degrees of visual angle per second and a step rate of one step every 2 s. At fast drift speeds (up to 35 degrees /s), participants were more than 200 ms too slow in coordinating their steps with the visual stimulus. Younger adults were better able to perform the stepping task across a wider range of drift speeds than older adults. CONCLUSION: The findings suggest that older adults are able to interact with video games based upon DDR but that stepping performance is determined by characteristics of game play such as arrow drift speed and step rate. These novel "exergames" suggest a low-cost method by which older adults can be engaged in exercises that challenge balance and which can be conducted in their own homes.
AD - Falls and Balance Research Group, Prince of Wales Medical Research Institute, Sydney, Australia. s.smith@powmri.edu.au AN - 19948529 BT - British Journal of Sports Medicine DA - 78004864918 ET - 2009/12/02 LA - eng M1 - 5 N1 - Smith, S TSherrington, CStudenski, SSchoene, DLord, S RResearch Support, Non-U.S. Gov'tEnglandBritish journal of sports medicineBr J Sports Med. 2011 Apr;45(5):441-5. Epub 2009 Nov 29. N2 -OBJECTIVE: This series of studies was conducted to develop and establish characteristics of exercise videogame play in older adults. The videogame was a modified version of the popular Dance Dance Revolution (DDR; Konomi). METHODS: Participants aged >/=70 were asked to make simple step movements in response to vertically drifting arrows presented on a video screen. Step responses were detected by a modified USB DDR mat, and characteristics of stepping performance such as step timing, percentage of missed target steps and percentage of correct steps were recorded by purpose-built software. Drift speed and step rate of visual stimuli were modified to increase task difficulty. RESULTS: Significant linear relationships between stepping performance and stimulus characteristics were observed. Performance of older adults decreased as stimulus speed and step rate were increased. Optimal step performance occurred for a stimulus speed of 17 degrees of visual angle per second and a step rate of one step every 2 s. At fast drift speeds (up to 35 degrees /s), participants were more than 200 ms too slow in coordinating their steps with the visual stimulus. Younger adults were better able to perform the stepping task across a wider range of drift speeds than older adults. CONCLUSION: The findings suggest that older adults are able to interact with video games based upon DDR but that stepping performance is determined by characteristics of game play such as arrow drift speed and step rate. These novel "exergames" suggest a low-cost method by which older adults can be engaged in exercises that challenge balance and which can be conducted in their own homes.
PY - 2011 SN - 1473-0480 (Electronic)0306-3674 (Linking) SP - 441 EP - 5 T2 - British Journal of Sports Medicine TI - A novel Dance Dance Revolution (DDR) system for in-home training of stepping ability: basic parameters of system use by older adults VL - 45 ER -