The three-dimensional coupling mechanism in scoliosis and its consequences for correction

Publication date

2023-11

Authors

Costa, Lorenzo
Schlösser, Tom P C
Seevinck, P.R.ISNI 0000000390489892
Kruyt, Moyo C.ORCID 0000-0002-5983-5251ISNI 0000000387798520
Castelein, RMISNI 0000000392339484

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Advisors

Supervisors

Document Type

Article

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Abstract

Introduction: In idiopathic scoliosis, the anterior spinal column has rotated away from the midline and has become longer through unloading and expansion of the intervertebral discs. Theoretically, extension of the spine in the sagittal plane should provide room for this longer anterior spinal column, allowing it to swing back towards the midline in the coronal and axial plane, thus reducing both the Cobb angle and the apical vertebral rotation. Methods: In this prospective experimental study, ten patients with primary thoracic adolescent idiopathic scoliosis (AIS) underwent MRI (BoneMRI and cVISTA sequences) in supine as well as in an extended position by placing a broad bolster, supporting both hemi-thoraces, under the scoliotic apex. Differences in T4–T12 kyphosis angle, coronal Cobb angle, vertebral rotation, as well as shape of the intervertebral disc and shape and position of the nucleus pulposus, were analysed and compared between the two positions. Results: Extension reduced T4–T12 thoracic kyphosis by 10° (p < 0.001), the coronal Cobb angle decreased by 9° (p < 0.001) and vertebral rotation by 4° (p = 0.036). The coronal wedge shape of the disc significantly normalized and the wedged and lateralized nucleus pulposus partially reduced to a more symmetrical position. Conclusion: Simple extension of the scoliotic spine leads to a reduction of the deformity in the coronal and axial plane. The shape of the disc normalizes and the eccentric nucleus pulposus partially moves back to the midline.

Keywords

Adolescent idiopathic scoliosis, Coupling mechanism, Extension, Scoliosis, Journal Article

Citation

Costa, L, Schlosser, T P C, Seevinck, P, Kruyt, M C & Castelein, R M 2023, 'The three-dimensional coupling mechanism in scoliosis and its consequences for correction', Spine Deformity, vol. 11, no. 6, pp. 1509-1516. https://doi.org/10.1007/s43390-023-00732-8