Increased Asymmetry of Trunk, Pelvis, and Hip Motion during Gait in Ambulatory Children with Spina Bifida

Bent, Melissa A.; Ciccodicola, Eva; Rethlefsen, Susan A.; Wren, Tishya A. L.

doi:10.3390/sym13091595

Symmetry

2021

DOI: 10.3390/sym13091595

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Increased Asymmetry of Trunk, Pelvis, and Hip Motion during Gait in Ambulatory Children with Spina Bifida

Melissa A. Bent

Eva Ciccodicola

Susan A. Rethlefsen

et al.

Abstract: Spina bifida (SB) is caused by incomplete neural tube closure and results in multiple impairments, including muscle weakness. The severity of muscle weakness depends on the neurologic lesion level. Though typically symmetric, there can be asymmetries in neurologic lesion level, motor strength, skeletal structures, and body composition that affect patients’ gait and function. Using body segment and joint motion obtained through 3D computerized motion analysis, we evaluated asymmetry and range of motion at the h… Show more

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2024

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Validation of Pelvis and Trunk Range of Motion as Assessed Using Inertial Measurement Units

Ali,

Hogen,

Miller

et al. 2024

Bioengineering

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Trunk and pelvis range of motion (ROM) is essential to perform activities of daily living. The ROM may become limited with aging or with neuromusculoskeletal disorders. Inertial measurement units (IMU) with out-of-the box software solutions are increasingly being used to assess motion. We hypothesize that the accuracy (validity) and reliability (consistency) of the trunk and pelvis ROM during steady-state gait in normal individuals as measured using the Opal APDM 6 sensor IMU system and calculated using Mobility Lab version 4 software will be comparable to a gold-standard optoelectric motion capture system. Thirteen healthy young adults participated in the study. Trunk ROM, measured using the IMU was within 5–7 degrees of the motion capture system for all three planes and within 10 degrees for pelvis ROM. We also used a triad of markers mounted on the sternum and sacrum IMU for a head-to-head comparison of trunk and pelvis ROM. The IMU measurements were within 5–10 degrees of the triad. A greater variability of ROM measurements was seen for the pelvis in the transverse plane. IMUs and their custom software provide a valid and reliable measurement for trunk and pelvis ROM in normal individuals, and important considerations for future applications are discussed.

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Validation of Pelvis and Trunk Range of Motion as Assessed Using Inertial Measurement Units

Ali,

Hogen,

Miller

et al. 2024

Bioengineering

View full text Add to dashboard Cite

show abstract

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Increased Asymmetry of Trunk, Pelvis, and Hip Motion during Gait in Ambulatory Children with Spina Bifida

Cited by 1 publication

References 26 publications

Validation of Pelvis and Trunk Range of Motion as Assessed Using Inertial Measurement Units

Validation of Pelvis and Trunk Range of Motion as Assessed Using Inertial Measurement Units

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