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Biomechanical evaluation of a new modular rod-screw implant system for posterior instrumentation of the occipito-cervical spine: in-vitro comparison with two established implant systems (2000)

Richter, M. ; Wilke, H.-J. ; Kluger, P. ; [et al.]

Springer

European spine journal 9 (2000), S. 417-425

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ISSN: 1432-0932

Keywords: Key words Posterior instrumentation ; Occipito-cervical spine ; Biomechanical testing, in vitro

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Posterior instrumentation of the occipito-cervical spine has become an established procedure in a variety of indications. The use of rod-screw systems improved posterior instrumentation as it allows optimal screw positioning adapted to the individual anatomic situation. However, there are still some drawbacks concerning the different implant designs. Therefore, a new modular rod-screw implant system has been developed to overcome some of the drawbacks of established systems. The aim of this study was to evaluate whether posterior internal fixation of the occipito-cervical spine with the new implant system improves primary biomechanical stability. Three different internal fixation systems were compared in this study: the CerviFix System, the Olerud Cervical Rod Spinal System and the newly developed Neon Occipito Cervical System. Eight human cervical spine C0/C5 specimens were instrumented from C0 to C4 with occipital fixation, transarticular screws in C1/C2 and lateral mass or pedicle screws in C3 and C4. The specimens were tested in flexion/extension, axial rotation, and lateral bending using pure moments of ± 2.5 Nm without axial preload. After testing the intact spine, the different instrumentations were tested after destabilising C0/C2 and C3/C4. Primary stability was significantly increased, in all load cases, with the new modular implant system compared to the other implant systems. Pedicle screw instrumentation tended to be more stable compared to lateral mass screws; nevertheless, significant differences were observed only for lateral bending. As the experimental design precluded any cyclic testing, the data represent only the primary stability of the implants. In summary, this study showed that posterior instrumentation of the cervical spine using the new Neon Occipito Cervical System improves primary biomechanical stability compared to the CerviFix System and the Olerud Cervical Rod Spinal System.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005860000173

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In vitro investigations of internal fixation systems of the upper cervical spine (1992)

Wilke, H. -J. ; Fischer, K. ; Kugler, A. ; [et al.]

Springer

European spine journal 1 (1992), S. 191-199

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ISSN: 1432-0932

Keywords: Biomécanique ; Rachis cervical ; Fracture de l'odontoïde ; Instabilité atlanto-axoïdienne ; Arthrodèse atlanto-axoïdienne postérieure ; Biomechanics ; Cervical spine ; Odontoid fracture ; Atlantoaxial instability ; Posterior atlantoaxial fusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Summary Unstable C1-C2 segments are generally treated surgically. Depending on the indication a direct screw fixation of the odontoid or a C1-C2 arthrodesis is a possible technique. In this experimental in vitro study the three different atlantoaxial fusion techniques by Gallie, Brooks, and Magerl were compared biomechanically. Sixteen human C1-C2 segments with odontoid fractures of type II and III were investigated under standardized conditions. Flexion and extension moments, anterior, and posterior shear forces, left and right torsional moments were applied, and the motion of C1 relative to C2 was determined. The results of this investigation show clearly that the segments treated with the technique by Magerl with transarticular screws achieved the highest stiffness, compared to the wiring methods of Brooks and Gallie. These differences were most evident for posterior shear forces and for torsional moments. For these load conditions the ratio of stiffness Magerl: Brooks: Gallie was about 10:2:1. Significant differences for the plastic deformation of the differently fixed C1-C2 segments were found within the first few load/unload cycles, which give information about the relationship between primary and long-term stability.

Notes: Résumé L'instabilité C1-C2 est le plus souvent traitée chirurgicalement. Selon l'indication, peuvent être proposées soit une ostéosynthèse par vissage direct de l'odontoïde, soit une arthrodèse C1-C2. Dans cette étude expérimentale in vitro, on a comparé au plan biomécanique, les trois différentes techniques d'arthrodèse atlanto-axoïdiennes, selon Gallie, Brooks et Magerl. 16 segments C1-C2 présentant des fractures de type II et III ont été testés in vitro dans des conditions bien définies. On a appliqué des moments de flexion et d'extension, des forces de cisaillement antérieur et postérieur et des moments de torsion vers la droite et vers la gauche, et l'on a analysé la mobilité de C1-C2. Les résultats de cette investigation ont clairement démontré que les segments traités par la technique de Magerl avec des vis transarticulaires, présentaient la plus grande rigidité, en comparaison des méthodes de cerclage de Brooks et de Gallie. Ces différences étaient plus évidentes dans le cas du cisaillement postérieur et de la torsion. Dans ces conditions de contrainte, le rapport de rigidité Magerl/Brooks/Gallie était de 10/2/1. Des différences significatives de déformation plastique ont été retrouvées entre les différentes fixations C1-C2 au cours des premiers cycles de mise en charge et décharge, qui renseignent sur la relation entre la stabilité primaire et à long terme.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00301312

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