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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT04660604
Other study ID # IASTM-24.11.20
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date June 1, 2019
Est. completion date December 30, 2020

Study information

Verified date January 2021
Source Bahçesehir University
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

STUDY DESIGN: Randomized controlled study OBJECTIVES: To investigate the contribution of instrument assisted soft tissue mobilization (IASTM) applied to gluteus medius (GMed) to isokinetic strength, femoral internal rotation (FIR), frontal plan projection angle (FPPA) and postural stability (PS) in individuals with asymptomatic dynamic knee valgus (DDV). BACKGROUND: In the literature effect of IASTM on force production and performance has been examined with exercise, and results of the studies are contradictory. Studies investigating the effects of IASTM without exercise and at recommended dose are needed. METHODS: 44 participants with DDV (21,39±1,79) were randomized to be control group (CG=22) and graston group (GG=22). First day, participants' FIR, FPPA with single leg squat test, dynamic and static PS on involved leg evaluations were completed. Second day, eccentric strength of GMed was measured by isokinetic test. IASTM application was applied 6 weeks, twice a week, 5 minutes, using Graston Technique® instruments. CG has not been attempted. Evaluations were repeated at the end of treatment.


Description:

Introduction Dynamic knee valgus (DDV), one of the lower extremity faulty movement patterns, is a biomechanical deviation that occurs in 3 motion plans, involving femoral internal rotation (FIR) and contralateral pelvis fall simultaneously with hip adduction.1 Hip flexion, adduction and FIR moments occur simultaneously during loading phase of walking, running or landing after jumping. Combination of these moments also forms DDV. These moments are resisted by intrinsic moments caused by eccentric contractions of hip extensor, abductor and external rotator muscles. Strength deficiency of these muscles in weight transfer activities causes an increase in hip adduction, and FIR, changes whole lower extremity kinematics.2,3 The valgus alignment also increases the risk of injury.4 In the review examining relationship between hip muscle strength and DDV, it was determined that decrease in gluteus medius (GMed) strength in functional activities on single leg was associated with DDV.2 Abduction torque produced by hip abductors stabilizes pelvis on relatively fixed femur by controlling pelvis in frontal and horizontal planes during stance phase of walking and most of stance and GMed produces most of the compression forces in hip.3,5 Therefore, GMed strength is also very important for postural stability (PS). In individuals with DDV, strength of hip muscles, especially GMed, should be focused on increasing PS during the tests performed on single leg and in injury prevention programs.4,6 Anatomical features of women increase the risk of DDV. In addition, when gender comparison was made, it was seen that women needed more eccentric contraction in the hip abductor muscles during the stance phase of running.7, and strength deficiency in proximal hip stabilizers of females could cause a greater decrease in athletic performance compared to men.8 Therefore, evaluation of eccentric strength of GMed muscle should be evaluated specific to gender.2 Thus, a more precise conclusion can be found in terms of abductor muscle strength, DDV and lower extremity alignment. Effect of soft tissue mobilization techniques on force production and performance is a remarkable topic. Instrument-assisted soft tissue mobilization (IASTM) technique, one of the soft tissue mobilization techniques, has also been found to be effective method that affects muscle strength, performance and endurance through activation of muscle and nervous systems.9-11 However, in studies IASTM technique was applied with an exercise protocol, and contribution of IASTM in force generation and performance increase is not understood. According to our knowledge, in the literature there is no randomized controlled study examining the effect of IASTM applied without exercise. Aim of our study is to investigate changes caused by IASTM applied to GMed muscle on eccentric force production of GMed, FIR, frontal plane projection angle (FPPA) and PS.


Recruitment information / eligibility

Status Completed
Enrollment 44
Est. completion date December 30, 2020
Est. primary completion date November 30, 2020
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Female
Age group 18 Years to 35 Years
Eligibility Inclusion Criteria: - to be a female between ages of 18 and 35, - to have an increase of more than 10 ° in FPPA in landing phase of single leg squat test (SLST), - not to have pain complaints - to be recreatively active. Exclusion Criteria: - body mass index of 30 kg/m² and above, - to have previous lower extremity surgery and joint, - meniscus or ligament injury, - chronic knee instability, - leg length inequality, - joint degeneration detected by radiography, - cardiac, musculoskeletal system, vestibular and neurological problems, - using corticosteroids for a long time - being pregnant.

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Graston Technique®
Graston technique, one of the soft tissue mobilization techniques, has also been found to be effective method that affects muscle strength, performance and endurance through activation of muscle and nervous systems.

Locations

Country Name City State
Turkey Pelin Pisirici Istanbul Besiktas/Istanbul

Sponsors (2)

Lead Sponsor Collaborator
Bahçesehir University Medipol University

Country where clinical trial is conducted

Turkey, 

Outcome

Type Measure Description Time frame Safety issue
Primary Change in isokinetic strength measurement gluteus medius eccentric strength evaluated with Cybex® Norm isokinetic dynamometer Pre evaluation before the intervention, 1 day after the intervention
Secondary Change in postural stability evaluation static and dynamic single leg postural stability Pre evaluation before the intervention, 1 day after the intervention
Secondary Change in Femoral internal rotation angle evaluation Femoral internal rotation angle measurement Pre evaluation before the intervention, 1 day after the intervention
Secondary Change in frontal plan projection angle evaluation Frontal plan projection angle measurement in single leg squat test Pre evaluation before the intervention, 1 day after the intervention
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