Effect of a novel compressible artificial disk on biomechanical performance of cervical spine: A finite element study

Effect of a novel compressible artificial disk on biomechanical performance of cervical spine: A finite element study

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Spinal interbody fusion is the most common surgery for treatment of disk degeneration, here but the increased stress on adjacent level has been noted.Disk replacement has become an alternative strategy for dealing with problem of disk degeneration.Compressibility of an intact intervertebral disk is contributive to protect spinal structure, but certain mechanism has seldom been preserved in most of the commercial products of ball-and-socket-styled artificial disks.A novel compressible artificial disk design for cervical spine has been developed and compared the biomechanical behaviors with intact and incompressible models by finite element method.

Physiological loadings have been applied for evaluating the biomechanical performances in different implant designs.Compressible mechanism represented a similar kinematic behavior to intact cervical spine model.Greater iphone 13 price dallas mobility and larger facet joint contact force were observed in incompressible disk model.Biomechanical performances of cervical artificial disk with compressible mechanism may be better reproduced to those of intact cervical spine under physiological loadings.

With adequate assigned structural stiffness of the compressible mechanism in the artificial disk, the concept is worth considering for further cervical artificial disk designs.