Tricia J Hubbard1, Mitchell Cordova. 1. University of North Carolina Charlotte, Department of Kinesiology, Charlotte, NC 28223, USA. thubbar1@uncc.edu
Abstract
OBJECTIVE: To examine the natural recovery of mechanical laxity after an ankle sprain over an 8-week period. DESIGN: Prospective cohort study. SETTING: Biodynamics research laboratory. PARTICIPANTS: Subjects with an acute lateral ankle sprain (n=16; 7 men, 9 women; age, 19.5+/-0.7y; mass, 64.6+/-8.1 kg; height, 171.9+/-9.6 cm) and healthy controls (n=16; 7 men, 9 women; age, 20.4+/-1.7y; mass, 76.9+/-11.1 kg; height, 176.5+/-11.1 cm) participated. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Subjects with acute ankle sprains were tested 3 days after injury and again 8 weeks later. Anterior and posterior displacement (mm) and inversion and eversion rotation ( degrees ) were measured with an instrumented arthrometer. For each dependent variable, a 2 x 2 x 2 repeated-measures multivariate analysis of variance was performed. RESULTS: A significant interaction was found between group, time, and side for anterior translation (F=4.24, P=.05). There were also significant main effects for group. There was significantly more anterior displacement at day 3 (F=19.52, P=.001) and at week 8 (F=8.45, P=.010) in the injured group compared with the healthy group. There was also significantly more inversion rotation at day 3 (F=2.70, P=.002) and at week 8 (F=5.4, P=.033) in the injured group compared with the healthy group. CONCLUSIONS: The lack of significant differences in mechanical laxity over an 8-week period suggests that natural recovery of laxity takes longer than 8 weeks. Further research needs to be conducted to examine how long this laxity persists and the role ankle rehabilitation plays in mechanical stability restoration.
OBJECTIVE: To examine the natural recovery of mechanical laxity after an ankle sprain over an 8-week period. DESIGN: Prospective cohort study. SETTING: Biodynamics research laboratory. PARTICIPANTS: Subjects with an acute lateral ankle sprain (n=16; 7 men, 9 women; age, 19.5+/-0.7y; mass, 64.6+/-8.1 kg; height, 171.9+/-9.6 cm) and healthy controls (n=16; 7 men, 9 women; age, 20.4+/-1.7y; mass, 76.9+/-11.1 kg; height, 176.5+/-11.1 cm) participated. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Subjects with acute ankle sprains were tested 3 days after injury and again 8 weeks later. Anterior and posterior displacement (mm) and inversion and eversion rotation ( degrees ) were measured with an instrumented arthrometer. For each dependent variable, a 2 x 2 x 2 repeated-measures multivariate analysis of variance was performed. RESULTS: A significant interaction was found between group, time, and side for anterior translation (F=4.24, P=.05). There were also significant main effects for group. There was significantly more anterior displacement at day 3 (F=19.52, P=.001) and at week 8 (F=8.45, P=.010) in the injured group compared with the healthy group. There was also significantly more inversion rotation at day 3 (F=2.70, P=.002) and at week 8 (F=5.4, P=.033) in the injured group compared with the healthy group. CONCLUSIONS: The lack of significant differences in mechanical laxity over an 8-week period suggests that natural recovery of laxity takes longer than 8 weeks. Further research needs to be conducted to examine how long this laxity persists and the role ankle rehabilitation plays in mechanical stability restoration.
Authors: John E Kovaleski; Robert J Heitman; Larry R Gurchiek; J M Hollis; Wei Liu; Albert W Pearsall Journal: J Athl Train Date: 2014-02-25 Impact factor: 2.860
Authors: John E Kovaleski; Robert J Heitman; Larry R Gurchiek; J M Hollis; Wei Liu; Albert W Pearsall Journal: J Athl Train Date: 2014-02-25 Impact factor: 2.860
Authors: Alison Suzanne Attenborough; Claire E Hiller; Richard M Smith; Max Stuelcken; Andrew Greene; Peter J Sinclair Journal: Sports Med Date: 2014-11 Impact factor: 11.136