Assessment of Torso Musculature and Hamstring Flexibility in Patients With Chronic Ankle Instability
NCT ID: NCT06925191
Last Updated: 2025-04-13
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
Recruitment Status
COMPLETED
Total Enrollment
58 participants
Study Classification
OBSERVATIONAL
Study Start Date
2024-11-02
Study Completion Date
2025-03-15
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
The purpose of this study is to assess torso musculature in terms of static and dynamic core muscle endurance tests and hamstring flexibility in non-athletic patients with unilateral chronic ankle instability.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
Trunk Muscle Strength and Endurance in Chronic Ankle Instability
NCT05676125
Chronic Ankle Instability
COMPLETED
Core Stability Traning Exercises in Chronic Ankle Instability in Atheletes
NCT06678503
Chronic Ankle Instability and Balance
NOT_YET_RECRUITING
NA
Flexibility Deficit in Chronic Ankle Instability
NCT04083391
Chronic Ankle Instability
COMPLETED
Balance and Proprioception Training Program in Patients With Chronic Ankle Sprains
NCT05920044
Ankle Sprains
UNKNOWN
NA
Radiological and Clinical Measures as Predictors of Dynamic Postural Control Deficits in Chronic Ankle Instability
NCT07051018
Chronic Ankle Instability, CAI
NOT_YET_RECRUITING
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
Ankle sprains are extremely common in public as well as in sports. Most people with acute ankle sprains respond well to conservative treatment , but many may experience chronic ankle pain and instability .
Injuries to the ankle lateral ligament typically occur when the ankle joint is inverted and plantar flexed . Ankle sprains occur about seven times per 1000 person-years in the general population, and in highly active people, the incidence can reach 45 times per 1000 person-years .
Chronic ankle instability (CAI), which includes both functional and mechanical ankle instability, is characterized by recurrent ankle sprains, persistent symptoms, and a tendency to "giving way" .
The terms mechanical ankle instability (MAI) and functional ankle instability (FAI) refer to two different conditions: FAI is defined as recurrent ankle sprains or re-damage, while MAI is defined as a state of ligament relaxation detected by objective physical examinations of the talar tilt and anterior drawer sign. The complaint of subjective feelings, such as ankle giving away in FI, is associated with FAI .
In relation to postural stability, which is characterized as the capacity to sustain and regulate one's center of gravity over a support base, postural control is a complicated process that arises from the cooperation and synergy of the vestibular, ocular, and somatosensory systems. Moreover, lower limb injuries are thought to be associated with postural instability.
In the kinetic chain that runs from the foot to the lumbar spine, core stability has been emphasized as a crucial factor to keep in mind when preserving dynamic joint stability .
It is important to note that in this instance, core stability refers to the hip complex's ability to maintain homeostasis following a disturbance and to avoid buckling. Additionally, there is clear evidence linking lower limb movement to trunk muscle activity . Motor chain disruptions resulting from dysfunction in the trunk, pelvis, and hips can cause lower extremity injuries and lower back pain (LBP) .
Additionally, the torso musculature was measured by testing the endurance of the core muscles (static and dynamic). The Bench Trunk Curl-Up test (BTCT) was used to measure dynamic endurance, while the modified right side-bridge, modified left side-bridge, trunk flexion and horizontal back extension tests were used for static endurance (the endurance time of each isometric test was recorded).
In addition to disorders including low back discomfort and irregular gait, tight hamstrings are linked to dysfunction in the lumbar spine, pelvis, and lower limb .
Tight hamstrings are linked to poor motor control patterns, which compromise postural muscle activation and make the hamstrings function more as stabilizers than as main movers. Hamstring tightness manifests because of this basic change in function .
Numerous research has assessed CAI's proximal deficiencies. A few evaluated their strength , and excitability Moreover, alterations in kinematics have been evaluated .
Statement of the problem
This study will try to answer the following question:
Are torso musculature and hamstring flexibility affected in non-athletic patients with unilateral chronic ankle instability? Purpose of the study The purpose of this study is to assess torso musculature in terms of static and dynamic core muscle endurance tests and hamstring flexibility in non-athletic patients with unilateral chronic ankle instability.
Hypotheses
It will be hypothesized that:
1. There is no significant difference in torso musculature in terms of static core muscle endurance between non-athletic healthy participants and non-athletic patients with unilateral chronic ankle instability.
2. There is no significant difference in torso musculature in terms of dynamic core muscle endurance between healthy participants and non-athletic patients with unilateral chronic ankle instability.
3. There is no significant difference in hamstring flexibility between non-athletic healthy participants and non-athletic patients with unilateral chronic ankle instability.
Significance of study Lateral ankle sprain is one of the most common sports injuries, and it has the highest recurrence rate among all lower-extremity musculoskeletal injuries .
chronic ankle instability (CAI) is linked to a lower lifetime quality of life, a lower degree of physical activity, and a higher chance of developing osteoarthritis in the joints .
Ankle sprains occurred 3.29 times per 1000 people annually in US emergency rooms in 2010 . The prevalence of CAI after a sprain is 25% overall, and in otherwise healthy adolescent athletes, it is 20% after an ankle sprain, even though over 15% of cases result in CAI, the public still views ankle sprains as benign injuries .
Hip muscle abnormalities are becoming more common in CAI patients, as described in studies , which might worsen the condition by impairing trunk and pelvic stability and causing the lower body to be malposition as a result .
Reduced lumbopelvic stability may theoretically exacerbate CAI, however this association is still theoretical. Tests that test a person's capacity to maintain hip and trunk alignment can be used to assess lumbar stability. However, no research has up to this point compared to the performance levels of those with and without CAI. Additionally, muscle deficiencies in the hip and trunk can impact lumbopelvic stability. There is, however, a lack of data on the anatomy of the trunk muscles in patients with CAI .
According to previous research, those with CAI experience higher rates of low back pain , delayed trunk muscle activation.
Previous study has investigated the relationship between core stability (CS) and CAI and concluded that, the lack of a clear correlation between trunk endurance and CAI remains unclear; nevertheless, it's possible that the McGill core endurance tests don't accurately assess lumbo-pelvic stability in CAI patients or distinguish between those who have the condition from those who don't. The individuals' sensorimotor systems were not sufficiently challenged by the tests to identify variations between groups. These tests only evaluate the static core endurance.
Therefore, it is crucial to assess torso musculature with CAI for both genders by both static and dynamic core endurance as This facilitates prevention of injury and management of the associated musculoskeletal deficits of CAI.
Previous research evaluating the Arthrogenic Muscle Response of the Hamstrings and Quadriceps with Chronic Ankle Instability produced the conclusion that participants with unilateral CAI had ipsilateral facilitation of the quadriceps and bilateral arthrogenic inhibition of the hamstrings. The motoneuron pool excitability in muscles acting on joints proximal to the ankle seems to be changed in individuals with unilateral CAI. Furthermore, deficiencies in sagittal plane force production were noted at the ankle and the knee, even though the source of instability was at the ankle.
The knee flexor muscles' maximal and submaximal isometric strengths as well as the knee extensor muscles' submaximal strengths are abnormal in people with CAI.
Previous studies assessed hamstring flexibility in ankle sprain or CAI in order to orient the therapist to evaluate the proximal affection that far from the injured site that influencing both preventative and therapeutic approaches to patient care, subsequently completing the evaluation procedures, reduce recurrence rate, restore functional loss and prevent degenerative sequels and concluded that CAI subjects have proximal muscular affection include hamstring tightness which may alter sacroiliac joint stability and subsequently back pain .
Injuries to the ankle lateral ligament typically occur when the ankle joint is inverted and plantar flexed . Ankle sprains occur about seven times per 1000 person-years in the general population, and in highly active people, the incidence can reach 45 times per 1000 person-years .
Chronic ankle instability (CAI), which includes both functional and mechanical ankle instability, is characterized by recurrent ankle sprains, persistent symptoms, and a tendency to "giving way" .
The terms mechanical ankle instability (MAI) and functional ankle instability (FAI) refer to two different conditions: FAI is defined as recurrent ankle sprains or re-damage, while MAI is defined as a state of ligament relaxation detected by objective physical examinations of the talar tilt and anterior drawer sign. The complaint of subjective feelings, such as ankle giving away in FI, is associated with FAI .
In relation to postural stability, which is characterized as the capacity to sustain and regulate one's center of gravity over a support base, postural control is a complicated process that arises from the cooperation and synergy of the vestibular, ocular, and somatosensory systems. Moreover, lower limb injuries are thought to be associated with postural instability.
In the kinetic chain that runs from the foot to the lumbar spine, core stability has been emphasized as a crucial factor to keep in mind when preserving dynamic joint stability .
It is important to note that in this instance, core stability refers to the hip complex's ability to maintain homeostasis following a disturbance and to avoid buckling. Additionally, there is clear evidence linking lower limb movement to trunk muscle activity . Motor chain disruptions resulting from dysfunction in the trunk, pelvis, and hips can cause lower extremity injuries and lower back pain (LBP) .
Additionally, the torso musculature was measured by testing the endurance of the core muscles (static and dynamic). The Bench Trunk Curl-Up test (BTCT) was used to measure dynamic endurance, while the modified right side-bridge, modified left side-bridge, trunk flexion and horizontal back extension tests were used for static endurance (the endurance time of each isometric test was recorded).
In addition to disorders including low back discomfort and irregular gait, tight hamstrings are linked to dysfunction in the lumbar spine, pelvis, and lower limb .
Tight hamstrings are linked to poor motor control patterns, which compromise postural muscle activation and make the hamstrings function more as stabilizers than as main movers. Hamstring tightness manifests because of this basic change in function .
Numerous research has assessed CAI's proximal deficiencies. A few evaluated their strength , and excitability Moreover, alterations in kinematics have been evaluated .
Statement of the problem
This study will try to answer the following question:
Are torso musculature and hamstring flexibility affected in non-athletic patients with unilateral chronic ankle instability? Purpose of the study The purpose of this study is to assess torso musculature in terms of static and dynamic core muscle endurance tests and hamstring flexibility in non-athletic patients with unilateral chronic ankle instability.
Hypotheses
It will be hypothesized that:
1. There is no significant difference in torso musculature in terms of static core muscle endurance between non-athletic healthy participants and non-athletic patients with unilateral chronic ankle instability.
2. There is no significant difference in torso musculature in terms of dynamic core muscle endurance between healthy participants and non-athletic patients with unilateral chronic ankle instability.
3. There is no significant difference in hamstring flexibility between non-athletic healthy participants and non-athletic patients with unilateral chronic ankle instability.
Significance of study Lateral ankle sprain is one of the most common sports injuries, and it has the highest recurrence rate among all lower-extremity musculoskeletal injuries .
chronic ankle instability (CAI) is linked to a lower lifetime quality of life, a lower degree of physical activity, and a higher chance of developing osteoarthritis in the joints .
Ankle sprains occurred 3.29 times per 1000 people annually in US emergency rooms in 2010 . The prevalence of CAI after a sprain is 25% overall, and in otherwise healthy adolescent athletes, it is 20% after an ankle sprain, even though over 15% of cases result in CAI, the public still views ankle sprains as benign injuries .
Hip muscle abnormalities are becoming more common in CAI patients, as described in studies , which might worsen the condition by impairing trunk and pelvic stability and causing the lower body to be malposition as a result .
Reduced lumbopelvic stability may theoretically exacerbate CAI, however this association is still theoretical. Tests that test a person's capacity to maintain hip and trunk alignment can be used to assess lumbar stability. However, no research has up to this point compared to the performance levels of those with and without CAI. Additionally, muscle deficiencies in the hip and trunk can impact lumbopelvic stability. There is, however, a lack of data on the anatomy of the trunk muscles in patients with CAI .
According to previous research, those with CAI experience higher rates of low back pain , delayed trunk muscle activation.
Previous study has investigated the relationship between core stability (CS) and CAI and concluded that, the lack of a clear correlation between trunk endurance and CAI remains unclear; nevertheless, it's possible that the McGill core endurance tests don't accurately assess lumbo-pelvic stability in CAI patients or distinguish between those who have the condition from those who don't. The individuals' sensorimotor systems were not sufficiently challenged by the tests to identify variations between groups. These tests only evaluate the static core endurance.
Therefore, it is crucial to assess torso musculature with CAI for both genders by both static and dynamic core endurance as This facilitates prevention of injury and management of the associated musculoskeletal deficits of CAI.
Previous research evaluating the Arthrogenic Muscle Response of the Hamstrings and Quadriceps with Chronic Ankle Instability produced the conclusion that participants with unilateral CAI had ipsilateral facilitation of the quadriceps and bilateral arthrogenic inhibition of the hamstrings. The motoneuron pool excitability in muscles acting on joints proximal to the ankle seems to be changed in individuals with unilateral CAI. Furthermore, deficiencies in sagittal plane force production were noted at the ankle and the knee, even though the source of instability was at the ankle.
The knee flexor muscles' maximal and submaximal isometric strengths as well as the knee extensor muscles' submaximal strengths are abnormal in people with CAI.
Previous studies assessed hamstring flexibility in ankle sprain or CAI in order to orient the therapist to evaluate the proximal affection that far from the injured site that influencing both preventative and therapeutic approaches to patient care, subsequently completing the evaluation procedures, reduce recurrence rate, restore functional loss and prevent degenerative sequels and concluded that CAI subjects have proximal muscular affection include hamstring tightness which may alter sacroiliac joint stability and subsequently back pain .
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Chronic Ankle Instability, CAI
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
Observational Model Type
OTHER
Study Time Perspective
CROSS_SECTIONAL
Interventions
Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.
Group A (Experimental): 29 affected ankles of both genders diagnosed with Chronic ankle instability (CAI) who met the inclusion criteria. Group B (Control): 29 matched non-affected with CAI
1-90-90Active knee extension test 2.Core muscles endurance tests(a. The static endurance tests b. The dynamic endurance tests)
Time Frame: 1 session
Intervention Type
DIAGNOSTIC_TEST
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
1. Their ages range from 20- 35 years old including both genders (male \& female).
2. Their BMI was 18.5- 30 kg/m2.
3. A history of the previously injured ankle joint "giving way," and/or recurrent sprain, and/or "feelings of instability."
4. Report episodes of giving way and sense of instability of the affected ankle
5. Cumberland Ankle Instability Tool (CAIT) patient scores \< 24.
2. Their BMI was 18.5- 30 kg/m2.
3. A history of the previously injured ankle joint "giving way," and/or recurrent sprain, and/or "feelings of instability."
4. Report episodes of giving way and sense of instability of the affected ankle
5. Cumberland Ankle Instability Tool (CAIT) patient scores \< 24.
Exclusion Criteria
* Subjects were excluded if they have any of the following criteria:( Gribble et al., 2014).
1. A history of previous surgeries on the musculoskeletal structures (i.e., bones, joint structures, nerves) in either lower extremity.
2. A history of a fracture in either lower extremity requiring realignment.
3. Acute injury to musculoskeletal structures of other joints of the lower extremity in the previous 3 months that impacted joint integrity and function (i.e., sprains, fractures), resulting in at least 1 interrupted day of desired physical activity.
4. Any patient received physical therapy treatment or medical treatment (NSAID)in the last 2weeks Before enrollment in the study.
5. Any patients suffered from low back pain, lumbar disorder and Sacro iliac joint pain.
1. A history of previous surgeries on the musculoskeletal structures (i.e., bones, joint structures, nerves) in either lower extremity.
2. A history of a fracture in either lower extremity requiring realignment.
3. Acute injury to musculoskeletal structures of other joints of the lower extremity in the previous 3 months that impacted joint integrity and function (i.e., sprains, fractures), resulting in at least 1 interrupted day of desired physical activity.
4. Any patient received physical therapy treatment or medical treatment (NSAID)in the last 2weeks Before enrollment in the study.
5. Any patients suffered from low back pain, lumbar disorder and Sacro iliac joint pain.
Minimum Eligible Age
20 Years
Maximum Eligible Age
35 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
Yes
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
Cairo University
OTHER
Sponsor Role
lead
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Maha Ahmed Abdelaziz Saleh
principal investigator
Responsibility Role
PRINCIPAL_INVESTIGATOR
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Cairo university
Cairo, , Egypt
Site Status
Countries
Review the countries where the study has at least one active or historical site.
Egypt
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
P.T.REC/012/005526
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.
Relationship Between Ankle Planterflexors Peak Torque and Balance in Patients With Functional Ankle Instability
NCT06715033
COMPLETED
The Effect of Balance Training on Neuromuscular Control in Subjects With CAI
NCT03439930
COMPLETED
NA
Postural Stability and Ankle Mobility in Haglund Syndrome
NCT05905952
UNKNOWN
A Test Battery for Evaluation of Muscle Strength, Balance and Functional Performance in Subjects With Chronic Ankle Instability
NCT05732168
COMPLETED
Relationship Between Isokinetic Hip Muscles Performance Parameters and Balance in Patients With Chronic Ankle Instability
NCT07086586
COMPLETED
Muscle Strength Assessment in Patients With Chronic Ankle Instability
NCT05273177
COMPLETED
Effect of Heel Lift Insole on Kinematics and Kinetics of the Lower Limb and Lumbar Spine Among Healthy Individuals
NCT07047300
RECRUITING
Relationship of Dynamic Knee Valgus With Foot Posture, Pain, and Balance in Chronic Ankle Instability.
NCT07121725
COMPLETED
Cross-Education for Chronic Ankle Instability
NCT06401681
COMPLETED
NA
Changes in Dynamic q Angle in Patients With Chronic Ankle Instability
NCT06188416
COMPLETED
Effect of Segmental Control Program on Hamstring Peak Torque in Patients With Non-specific Low Back Pain
NCT05288946
COMPLETED
NA
Association Between Chronic Ankle Instability and Sacroiliac Joint Dysfunction
NCT04555083
COMPLETED
Effect of Core Stability Exercises in Individuals With Bilateral Flexible Flat Foot
NCT07140861
RECRUITING
NA
Biomechanics and Intrinsic Foot Muscle Roles in Subjects With Chronic Ankle Instability
NCT05815576
COMPLETED
NA
Ankle Strengthening in Athletes With Chronic Ankle Instability
NCT06801483
ENROLLING_BY_INVITATION
NA
Elasticity of Structures Around the Ankle in Chronic Ankle Instability
NCT06987435
COMPLETED
Effects of Hip Strength Training and Neuromuscular Electrical Stimulation on Functional Ankle Instability
NCT06125158
COMPLETED
NA
Comparison of the Effects of Hip and Ankle Focused Progressive Exercise Training on Lower Extremity Function in Athletes With Chronic Ankle Instability
NCT07319403
NOT_YET_RECRUITING
NA
Multisegmented Foot Motion in Patients With Lateral Ankle Sprains and Chronic Ankle Instability
NCT02697461
UNKNOWN
NA
Effect of Pelvic Rigid Taping on Gait and Balance in Chronic Ankle Instability Patients With Pelvic Torsion
NCT07157072
COMPLETED
NA
Muscle Activation in Chronic Ankle Instability and the Effect of an Exercise Programme
NCT02276339
COMPLETED
NA
Effect of Stroboscopic Balance Training on Chronic Ankle Instability in Volleyball Players
NCT07255625
RECRUITING
NA
Comparison of Passive and Active Joint Mobilization for Chronic Ankle Instability
NCT04630899
COMPLETED
NA
Muscle Energy Technique and Muscle Flexibility
NCT06855303
COMPLETED
NA