Anna Ruth Mason-Mackay1, Chris Whatman2, Duncan Reid3, Anna Lorimer4. 1. Sports Performance Research Institute, New Zealand (SPRINZ), 17 Antares Place, Rosedale, Auckland, New Zealand; School of Sport and Recreation, Auckland University of Technology (AUT), 55 Wellesley Street East, Auckland, New Zealand; School of Rehabilitation and Occupation Studies, Auckland University of Technology (AUT), 55 Wellesley Street East, Auckland, New Zealand. Electronic address: a.mason.mackay@gmail.com. 2. Sports Performance Research Institute, New Zealand (SPRINZ), 17 Antares Place, Rosedale, Auckland, New Zealand. Electronic address: chris.whatman@aut.ac.nz. 3. School of Sport and Recreation, Auckland University of Technology (AUT), 55 Wellesley Street East, Auckland, New Zealand; School of Rehabilitation and Occupation Studies, Auckland University of Technology (AUT), 55 Wellesley Street East, Auckland, New Zealand. Electronic address: duncan.reid@aut.ac.nz. 4. Sports Performance Research Institute, New Zealand (SPRINZ), 17 Antares Place, Rosedale, Auckland, New Zealand. Electronic address: avlorimer@gmail.com.
Abstract
OBJECTIVES: Investigate the impact of lace-up ankle braces on landing biomechanics. DESIGN: Within-subject repeated measures. Participants completed a drop jump, drop land, and netball-specific task in braced and unbraced conditions. SETTING: Biomechanical research laboratory. PARTICIPANTS: Twenty female high school netballers. MAIN OUTCOME MEASURES: Leg, knee, and ankle stiffness, knee/ankle stiffness ratio, knee and ankle sagittal excursion, peak vertical ground reaction force, time-to-peak vertical ground reaction force, and loading rate. RESULTS: In the brace condition leg stiffness increased bilaterally during the drop land (ES = 0.21, 0.22), ankle stiffness increased bilaterally during the drop jump (ES = 0.37, 0.29) and drop land (ES = 0.40, 0.60), and knee/ankle stiffness ratio decreased in all three tasks (ES = -0.22 to -0.45). Ankle sagittal excursion decreased bilaterally during the drop jump (ES = -0.35, -0.53) and drop land (ES = -0.23, -0.46), and decreased in the lead limb during the netball jump (ES = -0.36). Knee excursion decreased bilaterally during the drop jump (ES = -0.36, -0.40) and in the lead limb during netball task (ES = -0.59). Lead limb TTP was greater during the netball jump (ES = 0.41). CONCLUSIONS: Lace-up ankle braces may increase leg and joint stiffness and reduce joint excursion during landing but do not appear to affect landing forces. The observed effect on landing biomechanics may predispose young netballers to injury.
OBJECTIVES: Investigate the impact of lace-up ankle braces on landing biomechanics. DESIGN: Within-subject repeated measures. Participants completed a drop jump, drop land, and netball-specific task in braced and unbraced conditions. SETTING: Biomechanical research laboratory. PARTICIPANTS: Twenty female high school netballers. MAIN OUTCOME MEASURES: Leg, knee, and ankle stiffness, knee/ankle stiffness ratio, knee and ankle sagittal excursion, peak vertical ground reaction force, time-to-peak vertical ground reaction force, and loading rate. RESULTS: In the brace condition leg stiffness increased bilaterally during the drop land (ES = 0.21, 0.22), ankle stiffness increased bilaterally during the drop jump (ES = 0.37, 0.29) and drop land (ES = 0.40, 0.60), and knee/ankle stiffness ratio decreased in all three tasks (ES = -0.22 to -0.45). Ankle sagittal excursion decreased bilaterally during the drop jump (ES = -0.35, -0.53) and drop land (ES = -0.23, -0.46), and decreased in the lead limb during the netball jump (ES = -0.36). Knee excursion decreased bilaterally during the drop jump (ES = -0.36, -0.40) and in the lead limb during netball task (ES = -0.59). Lead limb TTP was greater during the netball jump (ES = 0.41). CONCLUSIONS: Lace-up ankle braces may increase leg and joint stiffness and reduce joint excursion during landing but do not appear to affect landing forces. The observed effect on landing biomechanics may predispose young netballers to injury.
Authors: Sarah Whitehead; Jonathon Weakley; Stuart Cormack; Helen Alfano; Jim Kerss; Mitch Mooney; Ben Jones Journal: Sports Med Date: 2021-06-04 Impact factor: 11.136