Structural design and biomechanical analysis of a combined titanium and polyetheretherketone cage based on PE-PLIF fusion

• Published in: Medical & biological engineering & computing
• Main Authors: Ma, Lei, Xie, Yutang, Zhang, Kai, Chen, Jing, Wang, Yanqin, He, Liming, Feng, Haoyu, Chen, Weiyi, Zhang, Meng, Xue, Yanru, Wu, Xiaogang, Li, Qiang
• Format: Journal Article
• Language: English
• Published: United States 28.10.2024
• Subjects: Finite element method; PE-PLIF; Stress shielding; Combined cage design; Simple harmonic vibration
• ISSN: 0140-0118; 1741-0444; 1741-0444
• DOI: 10.1007/s11517-024-03214-9

In lumbar spinal fusion, the titanium cage tends to cause stress shielding due to their high elastic modulus, which can lead to degenerative lesions in adjacent spinal segments. Furthermore, polyetheretherketone (PEEK) cages have certain material characteristics that do not promote bone ingrowth and fusion stability. In this study, a new cage was designed, and its biomechanical performance in percutaneous endoscopic posterior lumbar interbody fusion (PE-PLIF) was analyzed using the finite element (FE) method. A complete model of the L4-L5 lumbar spine was established, and static and harmonic vibration FE analysis models were developed based on it. The biomechanical properties of titanium, PEEK, and combined cage in PE-PLIF fusion were compared. The strain capacity of the combined fusion increased by 9.5% when compared to the titanium fusion. The surgical model under the combined fusion reduces the L5 endplate stress by 12% in the forward flexion condition and the fusion stress by 17% in the vibration condition compared to the model supported by the titanium fusion, and the differences in screw stress and mobility among the three models are not significant in multiple conditions. Consequently, the combined cage demonstrates a certain reduction in the stress-shielding effect when compared to the titanium cage; it has better fusion effect and provides theoretical support and guidance for the design of the clinical fusion cage.