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Intrinsic functional deficits associated with increased risk of ankle injuries: a systematic review with meta-analysis
  1. Jeremy Witchalls1,2,
  2. Peter Blanch1,
  3. Gordon Waddington2,
  4. Roger Adams3
  1. 1Department of Physical Therapies, Australian Institute of Sport, Canberra, Australia
  2. 2Department of Health, University of Canberra, Canberra, Australia
  3. 3Department of Health Sciences, University of Sydney, Sydney, Australia
  1. Correspondence to Jeremy Witchalls, Department of Physical Therapies, Australian Institute of Sport, Leverier Crescent, Australian Capital Territory 2617, Canberra, Australia; jeremy.witchalls{at}ausport.gov.au

Abstract

Background A history of ankle injury is known to be associated with an increased risk of future injuries. Prevention of a first-time injury to an ankle will also prevent subsequent re-injury; yet these participants are often overlooked in reports of preventive testing. Determining the functional deficits which promote injury risk in all ankles, through studies inclusive of previously injured and never injured ankles, will enable training to be directed at improving known deficits in all sports participants.

Objective To review studies investigating the measurement of intrinsic functions in healthy ankles and assess their predictive value for injury.

Method Systematic review and meta-analysis of journal articles from selected electronic databases. Using all papers that included sufficient data for extraction in any paradigm, the authors pooled results for measures of strength, postural control, proprioception, muscle reaction time in response to perturbation, range of movement and ligament stability.

Results Thirteen papers were found with adequate data reporting to allow calculation of pooled standardised mean difference (SMD) or pooled RR. The following are all associated with an increased risk of ankle injury: higher postural sway (SMD=0.693, 95% CI=0.151 to 1.235, p=0.012), being in the lower postural stability group (RR=2.06, 95% CI=1.364 to 3.111, p=0.001), lower inversion proprioception (0.573, 0.244 to 0.902, <0.001), higher concentric plantar flexion strength at faster speeds (0.372, 0.092 to 0.652, 0.009) and lower eccentric eversion strength at slower speeds (0.337, 0.117 to 0.557, 0.003).

Conclusion There is a set of intrinsic functional and structural ankle deficits associated with significantly increased risk of ankle injury. These findings will enable clinicians and sports trainers to measure and train specific deficits in sports people for the prevention of ankle injury.

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Footnotes

  • Competing interests None.

  • Provenance and peer review Not commissioned; externally peer reviewed.

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