Chronic ankle instability (CAI) is a common complication following an ankle sprain, affecting joint stability and leading to decreased muscle strength and poor neuromuscular control. These symptoms can significantly impact athletes' sports performance. Rehabilitation training for CAI majorly involves strengthening or balance training. Few studies have discussed treatment plans that combine the above two training, and the effectiveness of combined training is similar to that of single training content. Due to the lack of machines to train ankle strength, thera-bands were often used for ankle strengthening. However, the resistance thera-bands provide is limited and may need more for athletes requiring high-intensity training. In recent years, a local company has developed a multiaxial ankle training system for machine-based ankle strengthening. This machine allows for training the ankle joint in various directions while sitting and can provide greater training resistance. As this machine has recently been developed and there is seldom evidence for its use in training, this project aims to discuss the effectiveness of using the ankle training machine in athletes with chronic ankle instability. This study will compare the differences in muscle strength, morphology, muscle material properties, balance ability, and functional performance of athletes after a six-week combined training program with thera-band or the multiaxial ankle training system for providing resistance. Thereby establishing a training plan for athletes suffering from chronic ankle instability.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
80
All subjects will recieve an ankle muscle strenghening training program twice a week for six weeks.
China Medical University
Taichung, Taiwan
Muscle Morphology
Using ultrasound to measure the muscle morphology of the peronous longus, gastrocnemius, tibialis anterior.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Y-Balance Test
This test is divided into three directions: anterior, posteromedial, and posterolateral. Each direction has a commercial measuring tape attached at 135 degrees, 90 degrees, and 135 degrees, respectively. The subject stands in the middle of the three measuring tapes, with the test foot's toe placed at the intersection point. The subject then stands on one leg with the test foot, extends the non-weight-bearing foot to touch the measuring tape in the target direction without touching the ground, and returns to the starting position while maintaining balance.
Time frame: At enrollment (1st week), midterm of training (3rd. week) and the end of training at 6 weeks
Countermovement Jump
Before the test, wireless EMG sensors are attached to the tibialis anterior, The test is performed on a force plate. The subject stands on the force plate, bends both knees to 90 degrees, and jumps as high as possible.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Triple Hop Test
The subject stands with both feet at the starting point in front of the force plate, then stands on one foot and performs three consecutive forward hops, with the first hop landing on the force plate.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Ankle muscle strength
Measuring muscle strength of dorsiflexion, plantarflexion, inversion and eversion by hand-hold dynamometer.
Time frame: At enrollment (1st. week) and the end of intervention at 6 weeks
Muscle tension
The maximum values for muscle tension of tibialis anterior, lateral gastrocnemius, and peroneus longus muscles are evaluated by the MyotonPRO.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Muscle stiffness
The maximum values for muscle stiffness of tibialis anterior, lateral gastrocnemius, and peroneus longus muscles are evaluated by the MyotonPRO.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Muscle elasticity
The maximum values for muscle elasticity of tibialis anterior, lateral gastrocnemius, and peroneus longus muscles are evaluated by the MyotonPRO.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Muscle stress relaxation time
The maximum values for muscle stress relaxation time of tibialis anterior, lateral gastrocnemius, and peroneus longus muscles are evaluated by the MyotonPRO.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Muscle creep
The maximum values for muscle creep of tibialis anterior, lateral gastrocnemius, and peroneus longus muscles are evaluated by the MyotonPRO.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Eyes Open/Eyes Closed Single-Leg Stance Test
This test includes static single-leg stance with eyes open/closed on stable/unstable surfaces, using a force plate to record the center of pressure changes during the test. The starting posture is single-leg stance with hands on hips and the non-test foot lightly touching the inner ankle of the weight-bearing foot. The subject maintains stable standing for 30 seconds. If instability occurs, hands and feet can leave the body to maintain balance, but the test foot must not move. If the other foot touches the ground, the test is considered a failure. For the unstable surface test, a soft pad is placed on the force plate, and the subject stands on the pad.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Muscle activation during countermovement Jump
The wireless EMG sensors are attached to the tibialis anterior, peroneus longus, and lateral gastrocnemius muscles to capture muscle activation during the activity.
Time frame: At enrollment (1st. week), midterm of training (3rd. week) and the end of training at 6 weeks
Foot and Ankle Ability Measure (FAAM)
The Foot and Ankle Ability Measure (FAAM) is a self-reported functional assessment for the ankle joint, divided into two domains: Activities of Daily Living (FAAM-ADL) and Sports (FAAM-Sports), with 21 and 8 items, respectively. Subjects rate the difficulty of performing each activity based on their perception, with 4 points for no difficulty and 0 points for unable to perform.
Time frame: At enrollment (1st. week) and the end of training at 6 weeks
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