Multi-segment foot landing kinematics in subjects with chronic ankle instability

Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers sho...

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Published inClinical biomechanics (Bristol) Vol. 30; no. 6; pp. 585 - 592
Main Authors De Ridder, Roel, Willems, Tine, Vanrenterghem, Jos, Robinson, Mark A., Palmans, Tanneke, Roosen, Philip
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.07.2015
Subjects
3D kinematics
Adult
Ankle Injuries - etiology
Ankle instability
Ankle Joint - physiopathology
Biomechanical Phenomena
Chronic Disease
Female
Foot - physiology
Foot segments
Humans
Impact phase
Joint Instability - physiopathology
Male
Physical Medicine and Rehabilitation
Range of Motion, Articular
Risk Factors
Young Adult
Foot segments
Ankle instability
Impact phase
3D kinematics
Online AccessGet full text
ISSN0268-0033
1879-1271
DOI10.1016/j.clinbiomech.2015.04.001

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Abstract Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers show altered foot and ankle kinematics and altered kinetics during a landing task when compared to controls. Ninety-six subjects (38 subjects with chronic ankle instability, 28 copers and 30 controls) performed a vertical drop and side jump task. Foot kinematics were obtained using the Ghent Foot Model and a single-segment foot model. Group differences were evaluated using statistical parametric mapping and analysis of variance. Subjects with ankle instability had a more inverted midfoot position in relation to the rearfoot when compared to controls during the side jump. They also had a greater midfoot inversion/eversion range of motion than copers during the vertical drop. Copers exhibited less plantar flexion/dorsiflexion range of motion in the lateral and medial forefoot. Furthermore, the ankle instability and coper group exhibited less ankle plantar flexion at touchdown. Additionally, the ankle instability group demonstrated a decreased plantar flexion/dorsiflexion range of motion at the ankle compared to the control group. Analysis of ground reaction forces showed a higher vertical peak and loading rate during the vertical drop in subjects with ankle instability. Subjects with chronic ankle instability displayed an altered, stiffer kinematic landing strategy and related alterations in landing kinetics, which might predispose them for episodes of giving way and actual ankle sprains. •Multi-segmented foot models may aid to identify influencing factors in chronic ankle instability.•A stiffer foot landing strategy was seen during landing in subjects with chronic ankle instability.•Subjects with chronic ankle instability endured higher vertical loading rates possibly increasing vulnerability.•Copers differentiated themselves from chronic ankle instability and controls in kinematical and kinetic strategy.
AbstractList Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers show altered foot and ankle kinematics and altered kinetics during a landing task when compared to controls. Ninety-six subjects (38 subjects with chronic ankle instability, 28 copers and 30 controls) performed a vertical drop and side jump task. Foot kinematics were obtained using the Ghent Foot Model and a single-segment foot model. Group differences were evaluated using statistical parametric mapping and analysis of variance. Subjects with ankle instability had a more inverted midfoot position in relation to the rearfoot when compared to controls during the side jump. They also had a greater midfoot inversion/eversion range of motion than copers during the vertical drop. Copers exhibited less plantar flexion/dorsiflexion range of motion in the lateral and medial forefoot. Furthermore, the ankle instability and coper group exhibited less ankle plantar flexion at touchdown. Additionally, the ankle instability group demonstrated a decreased plantar flexion/dorsiflexion range of motion at the ankle compared to the control group. Analysis of ground reaction forces showed a higher vertical peak and loading rate during the vertical drop in subjects with ankle instability. Subjects with chronic ankle instability displayed an altered, stiffer kinematic landing strategy and related alterations in landing kinetics, which might predispose them for episodes of giving way and actual ankle sprains.
BACKGROUNDChronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers show altered foot and ankle kinematics and altered kinetics during a landing task when compared to controls.METHODSNinety-six subjects (38 subjects with chronic ankle instability, 28 copers and 30 controls) performed a vertical drop and side jump task. Foot kinematics were obtained using the Ghent Foot Model and a single-segment foot model. Group differences were evaluated using statistical parametric mapping and analysis of variance.RESULTSSubjects with ankle instability had a more inverted midfoot position in relation to the rearfoot when compared to controls during the side jump. They also had a greater midfoot inversion/eversion range of motion than copers during the vertical drop. Copers exhibited less plantar flexion/dorsiflexion range of motion in the lateral and medial forefoot. Furthermore, the ankle instability and coper group exhibited less ankle plantar flexion at touchdown. Additionally, the ankle instability group demonstrated a decreased plantar flexion/dorsiflexion range of motion at the ankle compared to the control group. Analysis of ground reaction forces showed a higher vertical peak and loading rate during the vertical drop in subjects with ankle instability.INTERPRETATIONSubjects with chronic ankle instability displayed an altered, stiffer kinematic landing strategy and related alterations in landing kinetics, which might predispose them for episodes of giving way and actual ankle sprains.
Abstract Background Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers show altered foot and ankle kinematics and altered kinetics during a landing task when compared to controls. Methods Ninety-six subjects (38 subjects with chronic ankle instability, 28 copers and 30 controls) performed a vertical drop and side jump task. Foot kinematics were obtained using the Ghent Foot Model and a single-segment foot model. Group differences were evaluated using statistical parametric mapping and analysis of variance. Results Subjects with ankle instability had a more inverted midfoot position in relation to the rearfoot when compared to controls during the side jump. They also had a greater midfoot inversion/eversion range of motion than copers during the vertical drop. Copers exhibited less plantar flexion/dorsiflexion range of motion in the lateral and medial forefoot. Furthermore, the ankle instability and coper group exhibited less ankle plantar flexion at touchdown. Additionally, the ankle instability group demonstrated a decreased plantar flexion/dorsiflexion range of motion at the ankle compared to the control group. Analysis of ground reaction forces showed a higher vertical peak and loading rate during the vertical drop in subjects with ankle instability. Interpretation Subjects with chronic ankle instability displayed an altered, stiffer kinematic landing strategy and related alterations in landing kinetics, which might predispose them for episodes of giving way and actual ankle sprains.
Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible kinematic deviations at more distal segments of the foot. The purpose of this study was to evaluate if subjects with ankle instability and copers show altered foot and ankle kinematics and altered kinetics during a landing task when compared to controls. Ninety-six subjects (38 subjects with chronic ankle instability, 28 copers and 30 controls) performed a vertical drop and side jump task. Foot kinematics were obtained using the Ghent Foot Model and a single-segment foot model. Group differences were evaluated using statistical parametric mapping and analysis of variance. Subjects with ankle instability had a more inverted midfoot position in relation to the rearfoot when compared to controls during the side jump. They also had a greater midfoot inversion/eversion range of motion than copers during the vertical drop. Copers exhibited less plantar flexion/dorsiflexion range of motion in the lateral and medial forefoot. Furthermore, the ankle instability and coper group exhibited less ankle plantar flexion at touchdown. Additionally, the ankle instability group demonstrated a decreased plantar flexion/dorsiflexion range of motion at the ankle compared to the control group. Analysis of ground reaction forces showed a higher vertical peak and loading rate during the vertical drop in subjects with ankle instability. Subjects with chronic ankle instability displayed an altered, stiffer kinematic landing strategy and related alterations in landing kinetics, which might predispose them for episodes of giving way and actual ankle sprains. •Multi-segmented foot models may aid to identify influencing factors in chronic ankle instability.•A stiffer foot landing strategy was seen during landing in subjects with chronic ankle instability.•Subjects with chronic ankle instability endured higher vertical loading rates possibly increasing vulnerability.•Copers differentiated themselves from chronic ankle instability and controls in kinematical and kinetic strategy.
Author Roosen, Philip
Vanrenterghem, Jos
Robinson, Mark A.
Palmans, Tanneke
De Ridder, Roel
Willems, Tine
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Keywords Foot segments
Ankle instability
Impact phase
3D kinematics
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Snippet Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated possible...
Abstract Background Chronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have...
BACKGROUNDChronic ankle instability has been associated with altered joint kinematics at the ankle, knee and hip. However, no studies have investigated...
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SubjectTerms 3D kinematics
Adult
Ankle Injuries - etiology
Ankle instability
Ankle Joint - physiopathology
Biomechanical Phenomena
Chronic Disease
Female
Foot - physiology
Foot segments
Humans
Impact phase
Joint Instability - physiopathology
Male
Physical Medicine and Rehabilitation
Range of Motion, Articular
Risk Factors
Young Adult
Title Multi-segment foot landing kinematics in subjects with chronic ankle instability
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0268003315001060
https://www.clinicalkey.es/playcontent/1-s2.0-S0268003315001060
https://dx.doi.org/10.1016/j.clinbiomech.2015.04.001
https://www.ncbi.nlm.nih.gov/pubmed/25887076
https://www.proquest.com/docview/1686417984
Volume 30
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