. 2023 Dec 15;48(24):1717-1725.

doi: 10.1097/BRS.0000000000004715. Epub 2023 Jul 11.

Quantifying Muscle Size Asymmetry in Adolescent Idiopathic Scoliosis Using Three-dimensional Magnetic Resonance Imaging

Phoebe Duncombe¹, Maree T Izatt^{2

3}, Peter Pivonka³, Andrew Claus^{4

5}, J Paige Little^{2

3}, Kylie Tucker¹

Affiliations

¹ School of Biomedical Sciences, The University of Queensland, Australia.
² Biomechanics and Spine Research Group, Centre for Children's Health Research, Queensland University of Technology, Australia.
³ School of Mechanical, Medical and Process Engineering, Queensland University of Technology, Australia.
⁴ School of Health & Rehabilitation Sciences, The University of Queensland, Australia.
⁵ Royal Brisbane and Women's Hospital, Tess Cramond Pain and Research Centre, Australia.

PMID: 37432908
DOI: 10.1097/BRS.0000000000004715

Quantifying Muscle Size Asymmetry in Adolescent Idiopathic Scoliosis Using Three-dimensional Magnetic Resonance Imaging

Phoebe Duncombe et al. Spine (Phila Pa 1976). 2023.

. 2023 Dec 15;48(24):1717-1725.

doi: 10.1097/BRS.0000000000004715. Epub 2023 Jul 11.

Authors

Phoebe Duncombe¹, Maree T Izatt^{2

3}, Peter Pivonka³, Andrew Claus^{4

5}, J Paige Little^{2

3}, Kylie Tucker¹

Affiliations

¹ School of Biomedical Sciences, The University of Queensland, Australia.
² Biomechanics and Spine Research Group, Centre for Children's Health Research, Queensland University of Technology, Australia.
³ School of Mechanical, Medical and Process Engineering, Queensland University of Technology, Australia.
⁴ School of Health & Rehabilitation Sciences, The University of Queensland, Australia.
⁵ Royal Brisbane and Women's Hospital, Tess Cramond Pain and Research Centre, Australia.

PMID: 37432908
DOI: 10.1097/BRS.0000000000004715

Erratum in

Quantifying Muscle Size Asymmetry in Adolescent Idiopathic Scoliosis Using Three-dimensional Magnetic Resonance Imaging: Erratum.
[No authors listed] [No authors listed] Spine (Phila Pa 1976). 2024 Mar 1;49(5):E61. doi: 10.1097/BRS.0000000000004919. Epub 2024 Feb 8. Spine (Phila Pa 1976). 2024. PMID: 38323692 No abstract available.

Abstract

Study design: This is a case-control study of prospectively collected data.

Objective: To quantify paraspinal muscle size asymmetry in adolescent idiopathic scoliosis (AIS) and determine if this asymmetry is (i) greater than observed in adolescent controls with symmetrical spines; and (ii) positively associated with skeletal maturity using Risser grade, scoliosis severity using the Cobb angle, and chronological age in years.

Summary of background data: AIS is a three-dimensional deformity of the spine which occurs in 2.5% to 3.7% of the Australian population. There is some evidence of asymmetry in paraspinal muscle activation and morphology in AIS. Asymmetric paraspinal muscle forces may facilitate asymmetric vertebral growth during adolescence.

Methods: An asymmetry index [Ln(concave/convex volume)] of deep and superficial paraspinal muscle volumes, at the level of the major curve apex (Thoracic 8-9 th vertebral level) and lower-end vertebrae ( LEV , Thoracic 10-12 th vertebral level), was determined from three-dimensional Magnetic Resonance Imaging of 25 adolescents with AIS (all right thoracic curves), and 22 healthy controls (convex=left); all female, 10 to 16 years.

Results: Asymmetry index of deep paraspinal muscle volumes was greater in AIS (0.16±0.20) than healthy spine controls (-0.06±0.13) at the level of the apex ( P <0.01, linear mixed-effects analysis) but not LEV ( P >0.05). Asymmetry index was positively correlated with Risser grade ( r =0.50, P <0.05) and scoliosis Cobb angle ( r =0.45, P <0.05), but not age ( r =0.34, P >0.05). There was no difference in the asymmetry index of superficial paraspinal muscle volumes between AIS and controls ( P >0.05).

Conclusions: The asymmetry of deep apical paraspinal muscle volume in AIS at the scoliosis apex is greater than that observed at equivalent vertebral levels in controls and may play a role in the pathogenesis of AIS.

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Conflict of interest statement

The authors report no conflicts of interest.

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References

1. Machida M, Weinstein SL, Dubousset J. Pathogenesis of idiopathic scoliosis. Tokyo, Japan: Springer; 2018.
1. Davis CM, Grant CA, Izatt MT, et al. Characterization of progressive changes in pedicle morphometry and neurovascular anatomy during growth in adolescent idiopathic scoliosis versus adolescents without scoliosis. Spine Deform. 2020;8:1193–1204.
1. Labrom FR, Izatt MT, Claus AP, et al. Adolescent idiopathic scoliosis 3D vertebral morphology, progression and nomenclature: a current concepts review. Eur Spine J. 2021;30:1823–1834.
1. Labrom FR, Izatt MT, Contractor P, et al. Sequential MRI reveals vertebral body wedging significantly contributes to coronal plane deformity progression in adolescent idiopathic scoliosis during growth. Spine Deform. 2020;8:901–910.
1. Newell N, Grant CA, Keenan BE, et al. Quantifying progressive anterior overgrowth in the thoracic vertebrae of adolescent idiopathic scoliosis patients: a sequential magnetic resonance imaging study. Spine (Phila Pa 1976). 2016;41:E382–E387.

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Quantifying Muscle Size Asymmetry in Adolescent Idiopathic Scoliosis Using Three-dimensional Magnetic Resonance Imaging

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Quantifying Muscle Size Asymmetry in Adolescent Idiopathic Scoliosis Using Three-dimensional Magnetic Resonance Imaging

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