Prosthetics and orthotics international | 1979 | Hughes J, Jacobs N
Journal and index pages often block iframe embedding. This reader keeps the evidence details in Orthonotes and leaves the source page one click away.
[Indexed for MEDLINE] 7. Hum Mov Sci. 2024 Jun;95:103213. doi: 10.1016/j.humov.2024.103213. Epub 2024 Mar 23. Joint kinematics and SPM analysis of gait in children with and without Down syndrome. Beerse M(1), Larsen K(1), Alam T(2), Talboy A(3), Wu J(4). Author information: (1)Department of Health and Sport Science, University of Dayton, Dayton, OH, USA. (2)Department of Kinesiology and Health, Georgia State University, Atlanta, GA, USA. (3)Departments of Human Genetics and Pediatrics, Emory University, Atlanta, GA, USA. (4)Department of Kinesiology and Health, Georgia State University, Atlanta, GA, USA; Center for Movement and Rehabilitation Research, Georgia State University, Atlanta, GA, USA. Electronic address: jwu11@gsu.edu. BACKGROUND: Individuals with Down syndrome (DS) walk with altered gait patterns compared to their typically developing (TD) peers. While walking at faster speeds and with external ankle load, preadolescents with DS demonstrate spatiotemporal and kinetic improvements. However, evidence of joint kinematic adjustments is unknown, which is imperative for targeted rehabilitation design. RESEARCH QUESTION: How does increasing walking speed and adding ankle load affect the joint kinematics of children with and without DS during overground walking? METHODS: In this cross-sectional observational study, thirteen children with DS aged 7-11 years and thirteen age- and sex-matched TD children completed overground walking trials. There were two speed conditions: normal speed and fast speed (as fast as possible without running). There were two load conditions: no load and ankle load (2% of body mass added bilaterally above the ankle). A motion capture system was used to register the ankle, knee, and hip joint angles in the sagittal plane. Peak flexion/extension angles, range of motion, and timing of peak angles were identified. In addition, statistical parametric mapping (SPM) was conducted to evaluate the trajectory of the ankle, knee, and hip joint angles across the entire gait cycle. RESULTS AND SIGNIFICANCE: SPM analysis revealed the DS group walked with greater ankle, knee, and hip flexion compared to the TD group for most of the gait cycle, regardless of condition. Further, increasing walking speed led to improved ankle joint kinematics in both groups by shifting peak plantarflexion closer to toe-off. However, knee extension during stance was challenged in the DS group. Adding ankle load improved hip and knee kinematics in both groups but reduced peak plantarflexion around toe-off. The kinematic adjustments in the DS group suggest specific motor strategies to accommodate their neuromuscular deficits, which can provide a foundation to design targeted gait-based interventions for children with DS. Copyright © 2024 Elsevier B.V. All rights reserved. DOI: 10.1016/j.humov.2024.103213
This article has not been linked to a wiki topic yet.
This article has not been linked to a case yet.
This article has not been linked to an atlas yet.
