Ankle sprains are one of the most common injuries in sports. The analysis of risk factors is a priority in order to guide rehabilitation and prevention programs. Among risk factors identified in the literature, weakness of the hip abductor muscles represent a factor favoring recurrent ankle sprains. However, only few studies have investigate the link between the strength of the hip abductor muscles and the deficits in stabilization of the ankle joint. Furthermore, these few studies analysed landing task or undisturbed balance task. It would be interesting to further understand the impact and role of hip abductor muscles on ankle stability during specific ankle-destabilizing task. The main objective of this study is to establish a link between the strength of the hip abductor muscles and the dynamic postural control performance measured by the modified Star Excursion Balance Test (SEBTm). Secondly, it will be necessary to study the kinematic and neuromuscular control characteristics of the ankle during 4 functional tests: * SEBTm * Static unipodal balance * Weight-bearing inversion test * Weight-bearing eversion test These tests will be realized with an ankle destabilizing device. The device is a sandal equipped of an articulator under the rear foot which allow movements in inversion and eversion. Furthermore, tests are realized two times, before and immediatly after a fatiguing exercise. The fatiguing exercise consists to implemented local fatigue on hip abductor muscles by repeating abductions.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
24
Subjects were evaluated before and after a fatiguing exercise of hip abductor muscles that consisted to repeat hip abduction with rate and range of motion until a target decrease of force is attempt
CHU de Besançon
Besançon, France
Surface Electromyography intensity change
Measure of muscles activity if peroneus longus and brevis, tibialis anterior, gluteus medius and gastrocnemuis lateralis using wireless and surface electrodes fixed with strap on the skin of subjects
Time frame: 5 minutes before physical exercise
Surface Electromyography intensity change
Measure of muscles activity if peroneus longus and brevis, tibialis anterior, gluteus medius and gastrocnemuis lateralis using wireless and surface electrodes fixed with strap on the skin of subjects
Time frame: 5 minutes after physical exercise
Frontal inclination of ankle change
Measure of accelerations of ankle joint during tests using inertial measurement unit
Time frame: 5 minutes before physical exercise
Frontal inclination of ankle change
Measure of accelerations of ankle joint during tests using inertial measurement unit
Time frame: 5 minutes after physical exercise
SEBT performances change
Performances (distance in cm) attempted in each direction of the dynamic postural test
Time frame: 5 minutes before physical exercise
SEBT performances change
Performances (distance in cm) attempted in each direction of the dynamic postural test
Time frame: 5 minutes after physical exercise
Hip abductor strength change
Measure of maximal isometric strength with a S-shape force transducer
Time frame: 5 minutes before physical exercise
Hip abductor strength change
Measure of maximal isometric strength with a S-shape force transducer
Time frame: 5 minutes after physical exercise
Angular velocity of ankle change
Measure of angular velocity of ankle joint during tests using inertial measurement unit
Time frame: 5 minutes before physical exercise
Angular velocity of ankle change
Measure of angular velocity of ankle joint during tests using inertial measurement unit
Time frame: 5 minutes after physical exercise
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.