• Eur Spine J · Oct 2008

    A novel fusionless vertebral physeal device inducing spinal growth modulation for the correction of spinal deformities.

    • Eliane C Schmid, Carl-Eric Aubin, Alain Moreau, John Sarwark, and Stefan Parent.
    • Mechanical Engineering Department, Ecole Polytechnique de Montreal, P. O. Box 6079, Station "Centre-ville", Montreal, H3C 3A7, QC, Canada.
    • Eur Spine J. 2008 Oct 1;17(10):1329-35.

    AbstractCurrent fusionless scoliosis surgical techniques span the intervertebral disc. This alters the spine stiffness, disc pressure equilibrium and possibly may lead to disc degeneration. A new fusionless physeal device was developed that locally modulates vertebral growth by compressing the physeal ring, while maintaining maximum segmental spinal mobility without spanning the intervertebral disc. This study's objective was to test the feasibility of the device on a small animal model by inducing a scoliotic deformity (inverse approach) while analyzing the growth modifications. This study was conducted on caudal vertebrae of 21 rats (26-day-old) divided into 3 groups: (1) "experimental" (n = 11) with 4 instrumented vertebrae, (2) sham (n = 5) and (3) control (n = 5). Radiographs were taken at regular intervals during the 7-week experimental period. Tissues were embedded in methyl metacrylate (MMA), prepared by the cutting/grinding method, and then stained (Toluidine blue). The discs physiological alterations were qualitatively assessed and classified by inspection of the histological sections. A mean maximum Cobb angle of 30 masculine (+/-6 masculine) and a mean maximum vertebral wedge angle of 10 masculine (+/-3 masculine) were obtained between the 23rd and 35th day postoperative in the subgroup that underwent a long-term response from the device. The sham group underwent no growth alterations when compared to the control group. Descriptive histological analyses of the operated segments showed that 69% had no alterations to the intervertebral disc. This study presents experimental evidence that the device induces a significant and controlled wedging of the vertebrae while maintaining regular flexibility. In most discs, there were no visible morphological alterations induced. Further analysis of the discs and testing of this device on a larger animal is recommended with the long-term objective of developing an early treatment of progressive idiopathic scoliosis.

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