Effects of Hip Strength Training and Neuromuscular Electrical Stimulation on Functional Ankle Instability
- Conditions
- Ankle Injuries and Disorders
- Registration Number
- NCT06125158
- Lead Sponsor
- Tianjin University of Sport
- Brief Summary
The goal of this clinical trial is to compare the effects of two methods of elevating hip muscle strength on functional ankle instability(FAI). . The main question\[s\] it aims to answer are:
* Whether hip strength training and neuromuscular electrical stimulation of the gluteal muscles, respectively, based on conventional ankle training improves dysfunction in patients with FAI?
* Is there a difference in the efficacy of the above two interventions for FAI?
- Detailed Description
Participants will be randomly divided into 3 groups (Experimental Group A, Experimental Group B and Control Group) to receive the intervention for 6 weeks. The Control Group will undergo conventional ankle interventions such as peri-ankle muscle strength training and ankle balance training; Experimental Group A will undergo hip muscle strength training based on the conventional training; and Experimental Group B will perform neuromuscular electrical stimulation of hip abductors and hip extensors based on the conventional training. Researchers will compare the three groups to see changes in hip muscle strength, lower extremity muscle activation, ankle muscle strength, proprioception, dynamic and static balance, and self-reported ankle function.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 39
- History of at least one acute ankle sprain one year ago, accompanied by symptoms such as pain, swelling, and inability to participate in daily activities for more than one day.
- Unilateral ankle sprains and or instability felt at least twice during the past year.
- Last ankle sprain occurred greater than or equal to 1 month from the start of the experiment.
- Cumberland Ankle Instability Tool (CAIT) score less than or equal to 27 points,
- The results of Medial Talar Tilt Test and Anterior Draw Test are negative.
- Body Mass Index (BMI)ranges from 18 to 25.
- History of lower extremity surgery or fracture.
- History of brain injury or neurological disorders.
- Acute injury to musculoskeletal structures of other joints of the lower extremities within 1 month, affecting joint integrity and function.
- Participated in lower extremity rehabilitation or systematic athletic training after injury.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Primary Outcome Measures
Name Time Method Joint position sense Subjects were asked to test 1 time for 20 min before and after the intervention. Plantarflexion, dorsiflexion, inversion and eversion joint positional perception tests in active mode at the affected ankle joint were performed using the Humac Norm Multi-Joint Isokinetic Test and Training System to assess the subject's proprioception. Absolute Errors (AE) between the values of the active inversion and active valgus position sense tests and the values requested by the tester were measured.
Cumberland Ankle Instability Tool (CAIT) score Subjects were asked to test 1 time for 10 min before and after the intervention. Using the CAIT score reflects the participant's subjective level of perceived stability of the ankle joint. The questionnaire contains 9 questions related to ankle function, mainly about ankle stability, pain and ankle sprains during daily activities, such as walking, running, descending stairs, and standing on one or two legs, with scores ranging from 0 to 30. The higher the score, the better the ankle stability.
Hip isometric strength Subjects were asked to test 1 time for 20 min before and after the intervention. The Humac Norm model multi-joint isokinetic testing apparatus was used to perform hip abductor and extensor strength on the affected side in order to assess the subject's hip abductor and extensor strength. Peak Torque (PT), Relative Peak Torque to Body Weight (PT/BW), and Total Work (TW) were measured during centripetal contraction at 60°/s and 180°/s angular velocities.
Ankle isometric strength Subjects were asked to test 1 time for 20 min before and after the intervention. Ankle dorsiflexion, plantarflexion, inversion and valgus isokinetic strengths were measured using the Humac Norm Multi-Joint Isokinetic Testing Instrument. Peak Torque (PT), Relative Peak Torque to Body Weight (PT/BW), and Total Work (TW) were measured during centripetal contraction at 60°/s and 180°/s angular velocities.
Dynamic and static balance Subjects were asked to test 1 time for 20 min before and after the intervention. The Tecnobody PK254P Balance Tester was used to perform static postural stability tests and dynamic postural stability tests to assess the subject's static and dynamic balance abilities. Static Postural Stability Test and Dynamic Postural Stability Test to assess the static and dynamic balance ability of the subjects. Static balance was measured by the pre The static balance ability was measured by the standard deviation in the forward and backward directions, the standard deviation in the left and right directions, the area of the movement ellipse and the circumference of the movement trajectory. The static balance ability was measured by the total stability index, anterior-posterior axis stability index, and left-right axis stability index.
Muscle activation Subjects were asked to test 1 time for 40 min before and after the intervention. The electromyographic signals of gluteus medius, gluteus maximus, tibialis anterior, peroneus longus and gastrocnemius were collected by Noraxon ultium wireless surface electromyography to analyze the total amount of discharges of the motor units of the target muscles when the target muscles were involved in the activity, so as to reflect the degree of activation of the motor units of the target muscles in the course of the exercise. The test index is the Root Mean Square (RMS) of the target muscles before and after the landing moment of the single-leg vertical jump test.
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (1)
Tianjin University of Sport
🇨🇳Tianjin, Tianjin, China
Tianjin University of Sport🇨🇳Tianjin, Tianjin, China