A Cecilia Severin1, R Pearson Gean2, Sally G Barnes3, Robin Queen4, Robert J Butler5, Robert Martin6, C Lowry Barnes7, Erin M Mannen8. 1. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: Aseverin@uams.edu. 2. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: RGPearson@uams.edu. 3. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: SGB006@email.uark.edu. 4. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: RMQueen@vt.edu. 5. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: RobertJButler@gmail.com. 6. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: RDMartin@uams.edu. 7. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: CLBarnes@uams.edu. 8. University of Arkansas for Medical Sciences, Department of Orthopaedic Surgery, 4301 W., Markham St., Slot 531, Little Rock, AR, 72205, USA. Electronic address: EMannen@uams.edu.
Abstract
BACKGROUND: Orthopaedic walking boots are commonly prescribed following injury and surgery. The boot creates a leg length discrepancy which is thought to affect limb symmetry and gait mechanics. This study aimed to examine the effects of a corrective heel lift for the contralateral limb on the mechanics and symmetry of walking with an orthopaedic walking boot. RESEARCH QUESTION: Does a corrective heel lift reduce biomechanical alterations and asymmetries caused by an orthopaedic boot during gait? METHODS: Healthy males (n=17) walked with normal shoes (Shod), an orthopaedic boot (Boot), and a corrective heel lift on the contralateral limb to the boot (Lift). A 10-camera motion capture system (Vicon, 100Hz) and four force platforms (AMTI, 1000 Hz) recorded lower extremity biomechanics. Pairwise statistics tested for differences in hip and knee kinematics and kinetics, and a symmetry index quantified limb symmetry. FINDINGS: The Boot affected the sagittal and frontal plane hip mechanics and transverse plane knee mechanics (p<0.05), and increased the asymmetry compared to the Shod condition. The Lift improved the symmetry of some measures but increased the frontal plane hip asymmetry compared to the Boot. However, introducing the Lift did not change all kinematic variables affected by the boot. SIGNIFICANCE: The Lift reduced some of the asymmetries introduced by the Boot, but also introduced new asymmetry in the hip frontal plane motion. The leg length discrepancy caused by the boot is probably not the only cause of altered gait mechanics. Prescribing a heel lift to a patient with an orthopaedic walking boot should be based on the individual patient's needs.
BACKGROUND: Orthopaedic walking boots are commonly prescribed following injury and surgery. The boot creates a leg length discrepancy which is thought to affect limb symmetry and gait mechanics. This study aimed to examine the effects of a corrective heel lift for the contralateral limb on the mechanics and symmetry of walking with an orthopaedic walking boot. RESEARCH QUESTION: Does a corrective heel lift reduce biomechanical alterations and asymmetries caused by an orthopaedic boot during gait? METHODS: Healthy males (n=17) walked with normal shoes (Shod), an orthopaedic boot (Boot), and a corrective heel lift on the contralateral limb to the boot (Lift). A 10-camera motion capture system (Vicon, 100Hz) and four force platforms (AMTI, 1000 Hz) recorded lower extremity biomechanics. Pairwise statistics tested for differences in hip and knee kinematics and kinetics, and a symmetry index quantified limb symmetry. FINDINGS: The Boot affected the sagittal and frontal plane hip mechanics and transverse plane knee mechanics (p<0.05), and increased the asymmetry compared to the Shod condition. The Lift improved the symmetry of some measures but increased the frontal plane hip asymmetry compared to the Boot. However, introducing the Lift did not change all kinematic variables affected by the boot. SIGNIFICANCE: The Lift reduced some of the asymmetries introduced by the Boot, but also introduced new asymmetry in the hip frontal plane motion. The leg length discrepancy caused by the boot is probably not the only cause of altered gait mechanics. Prescribing a heel lift to a patient with an orthopaedic walking boot should be based on the individual patient's needs.
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