Background: Ankle dorsiflexion is a crucial factor for functional lower limb performance, particularly in sports like basketball, where dynamic movements, direction changes, jumps, and landings are essential for athletic success. Eccentric exercise has been shown to improve dorsiflexion range of motion (ROM), enhancing muscle strength, flexibility, and athletic performance. Additionally, ankle joint mobilization, specifically posterior talocrural glide, has demonstrated promising results in improving mobility, restoring ROM, and reducing compensatory movement strategies. However, the combined effects of eccentric exercise and joint mobilization on increasing ankle dorsiflexion ROM and improving athletic performance in young basketball athletes have not yet been sufficiently investigated. Objective: The purpose of this study is to investigate the effectiveness of combining eccentric exercise and posterior talocrural glide mobilization in improving ankle dorsiflexion ROM and enhancing athletic performance in young basketball athletes. Methods: A randomized controlled trial will be conducted, including 38 young basketball athletes with confirmed restricted ankle dorsiflexion ROM. Participants will be randomly assigned to an intervention group and a control group. Both groups will follow a five-week training program consisting of eccentric exercises and stretching, performed two times per week, to improve athletic performance. The intervention group, in addition to the exercise program, will undergo ankle joint mobilization sessions for the same duration. Ankle dorsiflexion ROM, maximum isometric strength of the ankle muscles, fatigue resistance through specific endurance tests, and performance via functional tests will be assessed at baseline, at the end of the five-week program, and three months after the intervention. Statistical analysis will be conducted using a two-way repeated-measures ANOVA, with the significance level set at p \< 0.05.
Background: Ankle dorsiflexion is a crucial factor for functional lower limb performance, particularly in sports like basketball, where dynamic movements, direction changes, jumps, and landings are essential for athletic success. Eccentric exercise has been shown to improve dorsiflexion range of motion (ROM), enhancing muscle strength, flexibility, and athletic performance. Additionally, ankle joint mobilization, specifically posterior talocrural glide, has demonstrated promising results in improving mobility, restoring ROM, and reducing compensatory movement strategies. However, the combined effects of eccentric exercise and joint mobilization on increasing ankle dorsiflexion ROM and improving athletic performance in young basketball athletes have not yet been sufficiently investigated. Objective: The purpose of this study is to investigate the effectiveness of combining eccentric exercise and posterior talocrural glide mobilization in improving ankle dorsiflexion ROM and enhancing athletic performance in young basketball athletes. Methods: A randomized controlled trial will be conducted, including a total of 38 young basketball athletes with confirmed restricted ankle dorsiflexion ROM. Participants will be randomly assigned to an intervention group and a control group. Both groups will follow a five-week training program consisting of eccentric exercises and stretching, performed two times per week, to improve athletic performance. In addition, all participants will continue their regular basketball-specific and plyometric team training throughout the study period, ensuring equivalent overall training exposure between groups and controlling for potential confounding effects of training load. The intervention group, in addition to the exercise program, will undergo ankle joint mobilization sessions for the same duration, whereas the control group will not receive joint mobilization. Ankle dorsiflexion ROM, maximum isometric strength of the ankle muscles, fatigue resistance through specific endurance tests, and performance via functional tests will be assessed at baseline, at the end of the five-week program, and three months after the intervention. Statistical analysis will be conducted using a two-way repeated-measures ANOVA, with the significance level set at p \< 0.05. Expected Outcomes: Improvements in ankle dorsiflexion ROM, muscle strength, and athletic performance are expected, along with a reduction in fatigue and compensatory movement strategies. The intervention is also anticipated to enhance ankle stability and lower the risk of injuries.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
38
Participants in this group will follow an exercise and stretching program for five weeks, performed two times per week.
Participants in this group will follow a five-week exercise and stretching program, performed two times per week, in combination with an ankle joint mobilization program.
International Hellenic University
Thessaloniki, Greece, Greece
Active Range of Motion of Ankle Dorsiflexion using a Digital Goniometer
The active range of motion (ROM) of ankle dorsiflexion will be measured using a digital goniometer, which provides joint angle measurements. The measurement will be performed with the participant in a seated position and the knee slightly flexed. The goniometer will be placed on the lateral malleolus and aligned with the axis of the tibia and the foot. The athlete will perform maximum active dorsiflexion, and the angle (in degrees) formed between the tibia and the foot will be recorded. Three trials will be performed and the mean value will be used for analysis. This measurement provides information regarding ankle mobility and helps identify potential motion restrictions. The use of a digital goniometer for ROM assessment is widely applied in clinical and research settings when standardized procedures are followed.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Dorsiflexion Range of Motion in a Closed Kinetic Chain using the Weight-Bearing Lunge Test (WBLT)
The Weight-Bearing Lunge Test (WBLT) is used to assess the range of motion (ROM) of ankle dorsiflexion in a closed kinetic chain. The test is performed with the participant standing facing a wall and advancing the tibia while keeping the heel in contact with the ground. The toe-to-wall distance (in cm) is measured while the knee remains in contact with the wall. Three trials are recorded and the mean value is used for analysis. This test provides a functional measure of ankle dorsiflexion under weight-bearing conditions and is widely used in both clinical and research settings.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Maximum Isometric Strength of Ankle Dorsiflexors and Plantar Flexors using a Handheld Dynamometer
The maximum isometric strength of the ankle dorsiflexors and plantar flexors will be assessed using a handheld dynamometer. Measurements will be performed with the participant in a seated position, with the hip and knee at approximately 90° and the ankle in a neutral position. The device will be applied to the foot while the athlete performs a maximal voluntary isometric contraction in both dorsiflexion and plantarflexion. Three maximal contractions will be recorded for each muscle group, and the highest value of force output (in Newtons, N) will be used for analysis. This method provides information regarding ankle muscle strength and functional capacity and is widely used in clinical and research settings when standardized procedures are applied.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Jump Height (cm) using the Countermovement Jump (CMJ) Test
The Countermovement Jump (CMJ) test is used to assess the explosive power of the lower limb muscles. Jump height (in cm) will be recorded using an optical measurement system, which calculates jump height based on flight time. Participants will perform one familiarization trial followed by three valid jumps, and the mean value will be used for analysis. This test provides an indicator of lower-limb explosive power and neuromuscular performance and is widely used in athletic populations.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Endurance and Fatigue Resistance using the Fatigue Index (FI) derived from repeated single-leg hops
The Fatigue Index (FI) is used to assess lower-limb fatigue resistance during repeated single-leg hopping. The FI is calculated as the relative change in performance between the initial and the final phase of repeated hop efforts, with higher values indicating a greater decline in performance. This measure provides information about the athlete's ability to maintain functional performance under repeated loading conditions and complements absolute performance measures obtained from hop tests.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Performance Assessment using the Single-Leg 6m Timed Hop Test
The Single-Leg 6 m Timed Hop Test is used to evaluate speed, explosive power, and balance control during repeated hopping movements. The athlete performs consecutive single-leg hops over a total distance of 6 meters. The time (in seconds) is recorded using a stopwatch, starting when the athlete's heel lifts from the ground in the initial position and stopping when the test foot crosses the finish line. The time is measured to the nearest tenth of a second. The athlete performs one familiarization trial followed by two valid trials, and the mean value of the two trials is used for analysis.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Performance Assessment using the Triple Hop for Distance Test
The Triple Hop for Distance Test is used to evaluate explosive power, balance control, and dynamic ankle stability. The athlete stands on one leg and performs three consecutive forward hops, always landing on the same foot while maintaining balance. The total hop distance (in centimeters) is measured from the starting position to the final landing point using a measuring tape placed on the ground. The athlete performs one familiarization trial followed by two valid trials, and the mean value of the two trials is used for analysis.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Performance Assessment using the Single-Leg Hop Test for Distance
The Single-Leg Hop Test for Distance is used to assess explosive power, balance, and ankle joint stability. The athlete stands on the test leg, performs a maximal forward jump, and lands on the same foot while attempting to maintain balance. The jump distance (in centimeters) is measured from the starting position to the landing point with a measuring tape placed on the ground. The athlete performs one familiarization trial followed by two valid trials, and the mean value of the two trials is used for analysis.
Time frame: Baseline, end of 5th week, 3-moth follow-up
Strength Endurance and Explosiveness assessed using the Reactive Strength Index (RSI)
The Reactive Strength Index (RSI) is used to evaluate an athlete's ability to rapidly transition from eccentric to concentric muscle action during stretch-shortening cycle activities. Participants will perform repeated jump contacts with minimal ground contact time. RSI will be calculated as jump height divided by ground contact time, and the mean value of valid trials will be used for analysis. This assessment provides an indicator of reactive and explosive neuromuscular performance.
Time frame: Baseline, end of 5th week, 3-moth follow-up
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