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Journal of Human Kinetics

The Journal of Academy of Physical Education in Katowice

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Gender Differences in Postural Stability Among Children

Andrew Smith
  • Department of Health and Physical Education, The Hong Kong Institute of Education, Hong Kong SAR
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Franciska Ulmer / Del Wong
Published Online: 2012-07-04 | DOI: https://doi.org/10.2478/v10078-012-0041-5

Gender Differences in Postural Stability Among Children

This study aimed to examine the gender differences in postural stability among 8-12 year-old children. Twenty-six children participated in this repeated measures study to measure the centre of pressure (COP) under one normal condition (CONTROL: hard surface, eyes open, and looking straight ahead) and two challenging sensory conditions (ECHB: eyes closed and head back; and EOCS: eyes open and compliant surface) in randomized order. Girls had significantly lower COP path velocity (COP-PV, p < 0.05, medium effect), smaller radial displacement (COP-RD, p < 0.05, medium effect), and lower area velocity (COP-AV, p < 0.05, medium effect) as compared to boys when the three conditions were pooled. Gender differences were found in the percentage changes in COP-RD during ECHB (p < 0.05, large effect) and EOCS (p < 0.05, medium effect), and in COP-AV during both ECHB and EOCS conditions (p < 0.05, medium effect). Postural stability performance of girls had higher correlations with age (-0.62 vs. -0.40), body mass (-0.60 vs. -0.42), foot length (-0.68 vs. -0.45), and physical activity level (-0.45 vs. 0.02), as compared to boys. Girls had better postural stability than boys but were more affected by altered sensory input information. Girls are more capable of integrating their sensory inputs, whereas boys treat each sensory input somewhat separately and rely more on somatosensory feedback. Exercises such as standing on unstable surfaces with eyes open instead of eye closed and head back are more beneficial to children's postural stability control system.

Keywords: balance; proprioception; youth; sensory weighting; centre of pressure

  • Bell F. Principles of Mechanics and Biomechanics. Cheltenham: Stanley Thornes; 1998Google Scholar

  • Brandt T, Krafcyzk S, Malsbenden I. Postural imbalance with head extension: improvement by training as a model for ataxia therapy. Ann NY Acad Sci, 1981; 374: 636-649Google Scholar

  • Cohen J. Statistical Power Analysis for the Behavioral Sciences. Hillsdale, NJ: Erlbaum Associates; 1988Google Scholar

  • Cornilleau-Pérès V. Shabana N, Droulez J, Goh JCH, Lee GSM, Chew PTK. Measurement of the visual contribution to postural steadiness from the COP movement: methodology and reliability. Gait Posture, 2005; 22(2): 96-106CrossrefGoogle Scholar

  • Crocker PR, Bailey DA. Faulkner RA, Kowalski KC, McGrath R. Measuring general levels of physical activity: preliminary evidence for the Physical Activity Questionnaire for Older Children. Med Sci Sports Exerc, 1997; 29(10): 1344-1349PubMedCrossrefGoogle Scholar

  • Day BL, Steiger MJ, Thompson PD, Marsden CD. Effect of vision and stance width on human body motion when standing: implications for afferent control of lateral sway. J Physiol, 1993 Sep; 469: 479-99Google Scholar

  • Demura S, Kitabayashi T, Uchiyama M. Body sway characteristics during static upright posture in young children. Sport Sci Health, 2006; 1(4): 158-161CrossrefGoogle Scholar

  • Freitas SM, Prado JM, Duarte M. The use of a safety harness does not affect body sway during quiet standing. Clin Biomech, 2005 Mar; 20(3): 336-9CrossrefGoogle Scholar

  • Geldhof E, Cardon G, De Bourdeauhuij I, Danneels L, Coorevits P, Vanderstraeten G, De Clercq D. Static and dynamic standing balance: test-retest reliability and reference values in 9 to 10 year old children. Eur J Pediatr, 2006; 65 (11): 779-786CrossrefGoogle Scholar

  • Habib Z, Westcott S. Assessment of anthropometric factors on balance tests in children. Pediatr Phys Ther, 1998; 10(3): 101-109Google Scholar

  • Hirabayashi S, Iwasaki Y. Developmental perspective of sensory organization on postural control. Brain Dev, 1995; 17(2): 111-113CrossrefPubMedGoogle Scholar

  • Hopkins WG. Measures of reliability in sports medicine and science. Sports Med, 2000; 30(1): 1-15PubMedCrossrefGoogle Scholar

  • Jeka J, Kiemel T, Creath R, Horak F, Peterka R. Controlling human upright posture: velocity information is more accurate than position or acceleration. J Neurophysiol 2004; 92(4): 2368-2379CrossrefPubMedGoogle Scholar

  • Le Clair K, Riach C. Postural stability measures: what to measure and for how long. Clin Biomech, 1996; 11(3): 176-178CrossrefGoogle Scholar

  • Lebiedowska MK, Syczewska M. Invariant sway properties in children. Gait Posture, 2000; 12(3): 200-204PubMedCrossrefGoogle Scholar

  • Lee AJ, Lin WH. The influence of gender and somatotype on single-leg upright standing postural stability in children. J Biomech, 2007; 23(3): 173-179Google Scholar

  • Masani K, Popovic MR, Nakazawa K, Kouzaki N, Nozaki D. Importance of body sway velocity information in controlling ankle extensor activities during quiet stance. J Neurophysiol, 2003; 90(6): 3774-3782PubMedCrossrefGoogle Scholar

  • Maurer C, Mergner, T, Peterka, RJ. Multisensory control of human upright stance. Exp Brain Res, 2006; 171: 231-50Google Scholar

  • Nolan L, Grigorenko A, Thorstensson A. Balance control: sex and age differences in 9- to 16-year-olds. Dev Med Child Neurol, 2005 Jul; 47(7): 449-54PubMedCrossrefGoogle Scholar

  • Odenrick P, Sandstedt P. Development of postural sway in the normal child. Hum Neurobiol, 1984; 3(4): 241-244PubMedGoogle Scholar

  • Peterson ML, Christou E, Rosengren KS. Children achieve adult-like sensory integration during stance at 12-years-old. Gait Posture, 2006 Jun; 23(4): 455-63PubMedGoogle Scholar

  • Riach C, Starkes J. Stability limits of quiet standing postural control in children and adults. Gait Posture, 1993; 1(2): 105-111CrossrefGoogle Scholar

  • Riach CL, Hayes KC. Maturation of postural sway in young children. Dev Med Child Neurol, 1987; 29(5): 650-658PubMedGoogle Scholar

  • Riley PO, Mann R.W, Hodge, WA. Modelling of the biomechanics of posture and balance. J Biomech, 1990; 23(5): 503-506PubMedCrossrefGoogle Scholar

  • Steindl R, Kunz K, Schrott-Fischer A, Scholtz AW. Effect of age and sex on maturation of sensory systems and balance control. Dev Med Child Neurol, 2006 Jun; 48(6): 477-82CrossrefPubMedGoogle Scholar

  • Westcott SL, Lowes LP, Richardson PK. Evaluation of postural stability in children: current theories and assessment tools. Phys Ther 1997; 77(6): 629-645PubMedGoogle Scholar

  • Winter DA. Biomechanics and Motor Control of Human Movement. New York: Wiley-Interscience; 1990Google Scholar

  • Winter DA, Patla AE, Prince F, Ishac M, Gielo-Perczak K. Stiffness control of balance in quiet standing. J Neurophysiol, 1998 Sep; 80(3): 1211-21PubMedGoogle Scholar

  • Winter DA. A.B.C. of Balance during Standing and Walking. Waterloo: Waterloo Biomechanics; 1995Google Scholar

About the article

Published Online: 2012-07-04

Published in Print: 2012-06-01

Citation Information: Journal of Human Kinetics, ISSN (Online) 1899-7562, ISSN (Print) 1640-5544, DOI: https://doi.org/10.2478/v10078-012-0041-5.

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