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Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 129 - 129
1 Feb 2003
Thomas G Foggitt A Yule V Kitsell F Bowyer G
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The rehabilitative phase of ankle injury management often involves the use of an ankle brace. The aim of this study was to ascertain the effects of such braces on the forces through the foot and the timing of peak loads in the gait cycle, in the recovering ankle and the uninjured ankle, in order to understand better the mechanism by which such braces enhance ankle stability.

Twenty four adults with recurrent ankle injuries and an aspiration to return to sporting activity were studied. Each was in the rehabilitation phase of recovery from ankle injury. Controls were 17 adults who regularly took part in sporting activity, without ankle injury. Assessment of peak force in three orthogonal axes (% body weight) during walking was carried out using the Kistler foot plate; the times taken to reach the maxima were recorded. Subjects were assessed in bare feet, training shoes and wearing one of two types of commonly available stirrup-type ankle braces.

Results showed that the ankle braces did not alter peak loads compared to training shoes alone (one-way analysis of variance, p< 0.05) and were consistent in both the injured and un-injured subjects. There were no significant differences between the two braces tested (p< 0.05). The time to reach peak load was not significantly different between the braced or non-braced ankles in either the injured or control groups.

Conclusions are that stirrup type ankle braces do not alter the peak forces through the foot during walking. The effectiveness of stirrup-type ankle braces appears not to depend on their modification of medial forces during gait.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_II | Pages 175 - 175
1 Feb 2003
Foggitt A Thomas G Yule V Kitsell F Bowyer G
Full Access

The rehabilitative phase of ankle injury management often involves braces. Our aim was to ascertain the effect of both a brace on both ankle range of movement and the timing of peak loads in the gait cycle, to understand better the mechanisms by which such braces enhance ankle stability.

We recruited 24 adults who were in the rehabilitation stage following ankle injuries, and in whom there was an aspiration to return to sport.

Controls were 17 adults who regularly played sport, but had no recent history of injury.

Assessment of range of movement was carried out using the Biodex isokinetic dynamometer to measure inversion, eversion, flexion and extension of the foot, with the subject in training shoes, and wearing one of two common stirrup-type ankle braces. Assessment of peak force in three orthogonal axes (% body weight) was performed using the Kistler footplate. The subjects were observed in bare feet, trainers and stirrup braces.

Results showed that the ankle braces restricted inversion (mean reduction 9 degrees, SD 8 degrees) compared to training shoes alone in both the injured and non-injured sunjects, but the restriction in range of movement in inversion /eversion was not significantly different between the braced injured and un-injured ankles (t test p< 0.05).The ankle braces did not alter peak loads compared to training shoes alone (one way analysis of variance, p< 0.05);these findings were consistent in both groups. The time to reach peak load was not significantly different between the braced or un-braced ankles in either the injured or control groups.

We conclude that stirrup type braces reduce the range of inversion/eversion in the normal and injured ankle, reducing the movement by a similar amount in both of these groups, but they do not alter peak forces through the foot during walking.