CAJ | 학술논문

目的：建立全颈椎生物力学数字仿真研究平台。方法：参考大量解剖学数据和人体颈椎标本的实验数据，应用逆向工程原理对序列螺旋CT 图片进行处理，分别构建颈椎椎体、椎动脉、韧带、椎间盘、关节面软骨和终板等结构模型，并从解剖形态和活动功能两方面验证该模型与人体生理状态的一致性。结果：构建了人体颈椎三维有限元模型，该模型椎体表面应力集中规律、双侧椎动脉血管壁所受应力特点以及血流速度—时间变化曲线等内容与文献报道的人体颈椎标本实验结果趋势一致，并能合理解释相对应的临床现象。结论：成功构建了人体全颈椎三维有限元流固耦合模型，该模型能为深入了解人体颈椎及其附属结构的生物力学机制提供新的研究思路。
목적：건립전경추생물역학수자방진연구평태。방법：삼고대량해부학수거화인체경추표본적실험수거，응용역향공정원리대서렬라선CT 도편진행처리，분별구건경추추체、추동맥、인대、추간반、관절면연골화종판등결구모형，병종해부형태화활동공능량방면험증해모형여인체생리상태적일치성。결과：구건료인체경추삼유유한원모형，해모형추체표면응력집중규률、쌍측추동맥혈관벽소수응력특점이급혈류속도—시간변화곡선등내용여문헌보도적인체경추표본실험결과추세일치，병능합리해석상대응적림상현상。결론：성공구건료인체전경추삼유유한원류고우합모형，해모형능위심입료해인체경추급기부속결구적생물역학궤제제공신적연구사로。
Objective: To construct a human cervical spine with bilateral vertebral artery fluid-solid coupling model .Methods: Helical CT images under the principle of reverse engineering and meshed in finite element model ( FEM ) related software were used to establish a human cervical spine with bilateral vertebral artery fluid-solid coupling model . In the process of modeling of vertebral body , vertebral artery , ligament , intervertebral disc , cartilage and endplate large anatomic data and cadaver experiments results were referenced .From the morphology and function the simulation of model with real physiological status was tested .Results: The study showed that the stress concentration on the surface of vertebral body and the blood wall of the bilateral vertebral artery , and the result of the volume flow rate-time curve of bilateral vertebral artery of the model were consistent with the published literatures .This model was well consistent with the clinical phenomenon .Conclusion: The three-dimensional FEM of the human cervical spine established by the introduced method has been effectively verified.The modeling method would provide a new tool for research on the cervical spine biomechanics .