Chronic ankle instability refers to a combination of persistent mechanical and functional instability symptoms following an ankle sprain. Along with these symptoms, decreased proprioception, reduced neuromuscular control, poor postural control, limited dorsiflexion range of motion, decreased ankle strength, and altered lower-extremity biomechanics during functional activities are also observed. In addition, individuals with chronic ankle instability have been shown to exhibit limitations in energy transfer across the lower extremity. These symptoms may hinder patients' physical activity levels and athletic performance and negatively affect their quality of life. Since the lower extremity functions as a unit, changes in adaptive strategies at the ankle can lead to kinematic alterations in proximal joints. Although the instability originates at the ankle, higher-level joints are also affected, and it has even been reported that in this population, lower-extremity stability is primarily achieved through the hip joint. While the effectiveness of hip-focused exercises has begun to be investigated in the literature, the superiority of different muscle groups has not yet been compared.
Chronic ankle instability is characterized by persistent mechanical and functional impairments that may develop following a lateral ankle sprain. Individuals with this condition commonly exhibit reduced proprioception, impaired neuromuscular control, limited dorsiflexion range of motion, and altered lower-extremity biomechanics, all of which may negatively affect daily activities and athletic performance. These deficits often lead to compensatory strategies at more proximal segments, and emerging evidence suggests that hip musculature plays a meaningful role in maintaining dynamic ankle stability. However, the specific contribution of individual hip muscle groups has not yet been clearly defined. This study is designed to compare the effects of strengthening different hip muscle groups -the gluteus medius and gluteus maximus- on functional and neuromuscular outcomes in individuals with chronic ankle instability. Participants will be randomly assigned to one of three parallel groups: a gluteus medius strengthening group, a gluteus maximus strengthening group, or a control group performing standard balance exercises. Each intervention group will follow a structured and progressively loaded exercise program targeting the designated muscle group. All participants will complete supervised training sessions throughout the intervention period. The study protocol includes a baseline assessment session, a multi-week intervention phase, and a post-intervention evaluation. Outcome measures will include functional performance tests, assessments of neuromuscular control, and metrics related to dynamic stability. These outcomes will be collected before and after the intervention to determine differences between groups. The aim of this protocol is to determine whether targeted strengthening of specific hip muscle groups yields superior improvements in individuals with chronic ankle instability. The findings are expected to enhance understanding of the role of proximal musculature in lower-extremity stability and contribute to more precise and effective rehabilitation strategies for this population.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
36
Participants with chronic ankle instability will undergo a 6-week hip-focused strengthening exercise program specifically targeting the gluteus medius muscle. The intervention aims to improve hip muscle strength and lower extremity stability.
Participants with chronic ankle instability will participate in a 6-week hip-focused strengthening exercise program targeting the gluteus maximus muscle. The program aims to enhance hip extension strength and overall lower extremity stability.
Participants with chronic ankle instability will perform a 6-week standard strengthening exercise program commonly used in the rehabilitation of ankle instability, without specific emphasis on targeted hip muscle strengthening.
Hacettepe University
Ankara, Çankaya, Turkey (Türkiye)
Cumberland Ankle Instability Tool (CAIT)
The Cumberland Ankle Instability Tool (CAIT) is a self-reported questionnaire designed to assess the severity of chronic ankle instability. It consists of 9 items evaluating ankle stability during daily and sports-related activities. Scores range from 0 to 30, with lower scores indicating greater perceived ankle instability. An increase in the CAIT score reflects clinical improvement in ankle stability.
Time frame: Baseline and after 6 weeks
Functional Ankle Instability Questionnaire
Self-reported functional ankle instability will be evaluated using the Functional Ankle Instability Questionnaire. The questionnaire will be administered face-to-face by a trained physiotherapist to assess perceived ankle instability during daily and sports-related activities.
Time frame: Baseline and after 6 weeks
Hip Muscle Strength
Isometric hip abduction and hip extension muscle strength will be assessed using a handheld dynamometer (KForce Muscle Controller, KInvent, USA). Hip abduction strength will be measured in a side-lying position at 25° of hip abduction with the knee extended, targeting the gluteus medius muscle. Hip extension strength will be measured in a prone position with the knee flexed at 90°, targeting the gluteus maximus muscle. Three trials will be performed bilaterally, and the mean value will be used for analysis.
Time frame: Baseline and after 6 weeks
Side Hop Test
Functional performance will be assessed using the Side Hop Test. Participants will be instructed to perform repeated lateral hops on one leg over a single reference line as quickly as possible for 30 seconds. The total number of successful hops will be recorded. The test will be performed three times, and the highest value will be used for analysis.
Time frame: Baseline and after 6 weeks
Step-Down Test
Postural stability and lower extremity kinematics will be evaluated using the Step-Down Test. Participants will stand on a raised platform on the test limb with hands placed on the waist and perform a controlled step-down by lowering the contralateral heel toward the ground and returning to the starting position. The movement will be performed at a standardized pace. The movement quality will be evaluated based on trunk, pelvis, and knee alignment.
Time frame: Baseline and after 6 weeks
Y-Balance Test
Dynamic balance will be assessed using the Y-Balance Test. Participants will perform maximal reach distances in the anterior, posteromedial, and posterolateral directions while standing on the dominant limb. Reach distances will be normalized to limb length. The average of three trials in each direction will be used for analysis.
Time frame: Baseline and after 6 weeks
Single-Leg Heel Raise Balance Test
Static balance will be assessed using the single-leg heel raise balance test. Participants will stand on one leg and perform plantar flexion while maintaining balance. The test will be terminated when the heel touches the ground. The average duration of three trials will be recorded.
Time frame: Baseline and after 6 weeks
Weight-Bearing Lunge Test
Ankle dorsiflexion range of motion will be assessed using the weight-bearing lunge test. Participants will lunge forward toward a wall while maintaining heel contact with the ground. The maximum distance between the great toe and the wall will be measured. Three trials will be performed for each limb, and the mean value will be used for analysis.
Time frame: Baseline and after 6 weeks
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