Martijn Wessels scite author profile

Purpose In vivo evaluation of scoliosis treatment using a novel approach in which two posterior implants are implanted: XSLAT (eXtendable implant correcting Scoliosis in LAT bending) and XSTOR (eXtendable implant correcting Scoliosis in TORsion). The highly flexible and extendable implants use only small, but continuous lateral forces (XSLAT) and torques (XSTOR), thereby allowing growth and preventing fusion. Methods Since (idiopathic) scoliosis does not occur spontaneously in animals, the device was used to induce a spinal deformity rather than correct it. Six of each implants were tested for their ability to induce scoliotic deformations in 12 growing pigs. Each implant spanned six segments and was attached to three vertebrae using sliding anchors. Radiological and histological assessments were done throughout the 8-week study. Results In all animals, the intended deformation was accomplished. Average Cobb angles were 19°for XSLAT and 6°for XSTOR. Average apical spinal torsion was 0°f or XSLAT and 9°for XSTOR. All instrumented segments remained mobile and showed 20 % growth. Moderate degeneration of the facet joints was observed and some debris was found in the surrounding tissue.Conclusions The approach accomplished the intended spinal deformation while allowing growth and preventing fusion.

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Mechanical behavior of a novel non-fusion scoliosis correction device

Wessels

Hekman

Verkerke

2013

Journal of the Mechanical Behavior of Biomedical Materials

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Martijn Wessels

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