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. 2021 Jan;26(1):e12313.
doi: 10.1111/jspn.12313. Epub 2020 Sep 24.

Physical activity and fitness: The feasibility and preliminary effectiveness of wearable activity tracker technology incorporating altruistic motivation in youth

Angela A Duck  1 Katherine C Hall  1 Melissa Klamm  1 Melissa Temple  2 Jennifer C Robinson  1
Affiliations

Physical activity and fitness: The feasibility and preliminary effectiveness of wearable activity tracker technology incorporating altruistic motivation in youth

Angela A Duck et al. J Spec Pediatr Nurs. 2021 Jan.

Abstract

Purpose: The purpose of this study was to examine the feasibility and preliminary effectiveness of using wearable activity tracker technology, integrated with altruistic motivation in children to increase physical activity (PA), fitness, and prosocial behavior.

Design and methods: A quasiexperimental design was employed in two 4th grade classrooms in a rural southern state. The intervention was a wearable PA tracker and a web-based curriculum with activities to earn power points redeemable to provide life-saving food to undernourished kids internationally. Seventeen children in the intervention group participated in the 10-week PA program and 18 children were in the wait listed control group. Three measures were assessed in both groups at baseline and postintervention: (a) PA measured with accelerometers, (b) fitness levels measured with shuttle run, and (c) prosocial behavior measured with Strengths and Difficulties questionnaire.

Results: Of the 35 children enrolled, the majority were nine years old (n = 28), black (n = 31) and female (n = 23). An overall enrollment rate of 88%, attrition rate of 9%, and an accelerometer noncompliance rate of 25% was determined to assess feasibility. There was no statistical significance between the control and intervention group outcome variables. The average minutes of PA in the control group decreased 8 min from baseline to postintervention (p = .05). In the intervention group, PA decreased by 10 min from baseline to postintervention (p = .12). In both the control and intervention groups, prosocial behavior scores decreased (p = .09 control; p = .62 intervention). The fitness scores, VO2 max, did not significantly change (intervention p = .21; control p = .35).

Practice implications: Developing effective interventions that foster PA and dissuade sedentary behaviors are essential to enhancing PA and fitness levels. The recruitment, retention, and accelerometer wear adherence suggest this setting, with this population is feasible. The intervention is deliverable, however, the potential of wearable activity trackers and the effect of prosocial behavior that benefits others in increasing PA and improving cardiorespiratory fitness, should be further researched by building on the successful elements of this study.

Keywords: accelerometers; altruism; children; physical activity; wearable activity tracker.

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References

REFERENCES

    1. Blake, P., McAuliffe, K., Corbit, J., Callaghan, T., Barry, O., Bowie, A., Kleutsch, L., Kramer, K., Ross, E., Vongsachang, H., Wrangham, R., & Warneken, F. (2015). The ontogeny of fairness in seven societies. Nature, 528, 258-261. https://doi.org/10.1038/nature15703
    1. Braaksama, P., Stuive, O., Garst, R., Wesselini, C., van der Sluis, C., Dekker, R., & Schoemaker, M. (2017). Characteristics of physical activity interventions and effects on cardiorespiratory fitness in children aged 6-12 years: A systematic review. Journal of Science and Medicine in Sport, 21(3), 296-306.
    1. Bronikowski, M., Bronikowska, M., & Glapa, A. (2016). Do they need goals or support? A report from a goal-setting intervention using physical activity monitors in youth. International Journal of Environmental Research and Public Health, 13(9), 914. https://doi.org/10.3390/ijerph13090914
    1. Brooke, H., Atkin, A., Corder, K., Ekelund, U., & Sluijs, E. (2016). Changes in time-segment specific physical activity between ages 10 and 14 years: A longitudinal observational study. Journal of Science and Medicine in Sport, 19(1), 29-34. https://doi.org/10.1016/j.jsams.2014.10.003
    1. Carlson, J., Engelberg, J., Cain, K., Conway, T., Mignano, A., Bonilla, E., & Sallis, J. (2015). Implementing classroom physical activity breaks: Association with student physical activity and classroom behavior. Preventive Medicine, 81, 67-72. https://doi.org/10.1016/l.ypmed.2015.08.006

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