The Effects of Exergaming on Sensory Reweighting and Mediolateral Stability of Women Aged Over 60: Usability Study.

BACKGROUND: Older adults tend to experience difficulties in switching quickly between various reliable sensory inputs, which ultimately may contribute to an increased risk of falls and injuries. Sideward falls are the most frequent cause of hip fractures among older adults. Recently, exergame programs have been confirmed as beneficial tools for enhancing postural control, which can reduce the risk of falls. However, studies to explore more precisely which mechanism of exergaming directly influences older women's ability to balance are still needed. OBJECTIVE: Our aim was to evaluate, in a single-group pretest/posttest/follow-up usability study, whether Kinect exergame balance training might have a beneficial impact on the sensory reweighting in women aged over 60. METHODS: A total of 14 healthy women (mean age 69.57 [SD 4.66] years, mean body mass index 26.21 [SD 2.6] kg/m2) participated in the study. The volunteers trained with the commercially available games of Kinect for Xbox 360 console 3 times (30 minutes/session) a week over a 6-week period (total of 18 visits). Participants' postural sway in both the anteroposterior (AP) and mediolateral (ML) directions was recorded with NeuroCom Balance Master 6.0. To assess and measure postural sensory reweighting, the Modified Clinical Test of Sensory Interaction in Balance was used, where volunteers were exposed to various changes in visual (eyes open or eyes closed) and surface conditions (firm or foam surface). RESULTS: In the ML direction, the Kinect exergame training caused a significant decrease in the sway path on the firm surface with the eyes open (P<.001) and eyes closed (P=.001), and on the foam surface with the eyes open (P=.001) and eyes closed (P<.001) conditions compared with baseline data. The follow-up measurements when compared with the baseline data showed a significant change in the sway path on the firm surface with the eyes open (P<.001) and eyes closed (P<.001) conditions, as well as on the foam surface with the eyes open (P=.003) and eyes closed (P<.001) conditions. Besides, on the firm surface, there were no significant differences in sway path values in the AP direction between the baseline and the posttraining measurements (eyes open: P=.49; eyes closed: P=.18). Likewise, on the foam surface, there were no significant differences in sway path values in the AP direction under both eyes open (P=.24) and eyes closed (P=.84) conditions. CONCLUSIONS: The improved posturography measurements of the sway path in the ML direction might suggest that the Kinect exergame balance training may have effects on sensory reweighting, and thus on the balance of women aged over 60. Based on these results, Kinect exergaming may provide a safe and potentially useful tool for improving postural stability in the crucial ML direction, and thus it may help reduce the risk of falling.

Is Kinect Training Superior to Conventional Balance Training for Healthy Older Adults to Improve Postural Control?

OBJECTIVE: To investigate the effects of balance training to improve postural control in adults older than 60. Our aim was to find out if Kinect training is superior to the conventional balance training in aspects of functional balance tests and posturography measurements testing postural stability through visual feedback. MATERIALS AND METHODS: Thirty subjects participated in the Kinect training group (29 women and 1 man), practiced Kinect Adventures and Sports, 23 volunteers (22 women and 1 man) attended the conventional balance training, and 22 participants (18 women and 4 men) were allocated to the no-intervention control group. Both interventions lasted for 6 weeks, three times a week, and 30 minutes per session. The Four-Square Step Test, Functional Reach Test, Timed Up and Go test, Timed Up and Go cognitive dual-task test were measured, and for the assessment of the limit of stability (LOS), we used computerized posturography. Measurements were taken before the training at baseline and 6 weeks after (follow-up) the interventions. Statistical analysis was done through two-factor mixed analysis of variance and Newman-Keuls post hoc test. RESULTS: Both training groups showed progress in the follow-up measurements; however, more statistically significant improvements were found in favor of the Kinect balance training group (Timed Up and Go test [P < 0.05], Timed Up and Go cognitive dual-task test [P < 0.05], Four-Square Step Test [P < 0.05], Functional Reach Test [P < 0.05], LOS movement velocity [P < 0.05]). CONCLUSION: Our results suggest that Kinect balance training may be a preferable and safe method for the healthy older adults to improve postural control and reduce the possibility of falling.