Finite element analysis of the treatment of cervical spondylotic radiculopathy with three dimensional balanced manipulation / 中国骨伤

ABSTRACT

OBJECTIVE@#To explore the biomechanical characteristics of "three-dimensional balanced manipulation" for the treatment of cervical spondylotic radiculopathy(CSR).@*METHODS@#A CSR patient was treated with "three-dimensional balanced manipulation", and the mechanical changes during the manipulation were monitored by mechanical testing system. Using spiral CT to scan the neck of the patient to obtain DICOM data. The three-dimensional finite element model of cervical spondylotic radiculopathy was established by using Mimics software, Geographic Studio software. The "three-dimensional balance manipulation" was simulated and loaded, and the mechanical parameters of each part were replaced into the finite element model, and the finite element analysis was carried out by using ANSYS software to study the internal stress changes and displacement deformation of vertebral body and intervertebral disc under the action of "three-dimensional balance manipulation".@*RESULTS@#The established C-C finite element model of the CSR patient consisted of 5 vertebrae, 4 intervertebral discs and 3 ligaments, involving 153 471 nodes and 64 978 units. The stress of C-C vertebral body was mainly located in anterior and root of C spinous processes, arch, vertebral arch and the combination of the two after full loading of manipulation, and the maximum stress was 17.781 MPa. The deformation sites were mainly concentrated in articular processes and anterior transverse processes of C, superior articular processes and transverse processes of C, articular processes of C. The stress of C-C intervertebral disc mainly distributed in the anterior part of C intervertebral disc and the nucleus pulposus of C and C. The displace mentextended to the middle and posterior part of C nucleus pulposus, around the nucleus of C and C and anterior part of cervical intervertebral disc.@*CONCLUSION@#The establishment of three-dimensional finite element model of C-C cervical spondylotic radiculopathy can simulate the geometry and material properties of cervical spine, and also accurately reflects the biomechanical characteristics of cervical spine, verifys the internal mechanism of "three-dimensional balanced manipulation" on CSR, proves the safety and effectiveness of treatment, guides more standardized manipulation, and avoids medical accidents.