Effect of bone cement with a low elastic modulus on the fractured and adjacent vertebrae in patients with osteoporotic vertebral compression fractures:a three-dimensional finite analysis
10.3969/j.issn.2095-4344.2016.16.001
- VernacularTitle:低弹性模量骨水泥对骨质疏松压缩性骨折椎体及邻近椎体应力的影响:三维有限元分析
- Author:
Yongzheng BAO
;
Zhouxing ZHU
;
Yunsheng FENG
;
Qiang WU
;
Konghe HU
;
Xiaolong HE
;
Wengang ZHU
;
Xinhua XI
;
Xueren ZHONG
;
Longze ZHOU
;
Junjian LIAO
;
Xiangheng DAI
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2016;20(16):2285-2293
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:Vertebroplasty and kyphoplasty can effectively repair osteoporotic vertebral compression fractures, but bone cement injection can cause the change of stress in the fractured vertebrae and adjacent vertebrae after surgery, leading to new fractures.
OBJECTIVE: To analyze the stress changes of the fractured vertebrae and adjacent vertebrae after vertebroplasty with different elastic modulus bone cement by a three-dimensional finite element method.
METHODS: One healthy adult male volunteer was selected for lumbar spine CT scan. The acquired images were imported for three-dimensional reconstruction using Mimics. The three-dimensional model was smoothed, polished and denoised by Geomagic software, and then the solid mode was built under Workbench Ansys. An osteoporotic vertebral compression fracture model in L2-4 segments was established after assignment. Bone cement (4 mL) with different elastic moduli (8 000, 4 000, 2 000 and 1 000 MPa) injected into the L3 segment distributed in the middle of the vertebrae as spherical shape. 500 N pre-load was applied on the L2 surface with an additional bending moment of 50 N?m. The lower surface free degree of L4 was restrained. The L2-4 forward flexion, posterior extension, right flexion and axial rotation on the right side were stimulated. The stress changes of the fractured vertebrae and the upper and lower adjacent vertebrae before and after bone cement injection with different elastic moduli were compared.
RESULTS AND CONCLUSION:The stress of the fractured vertebrae and adjacent vertebrae were significantly increased compared with that before operation. With the increase of elastic modulus, the stress of the fractured vertebrae increased, but there were no changes in the stress of adjacent vertebrae. These findings indicate that the elastic modulus of bone cement may be a method to reduce new fractures of the fractured and adjacent vertebrae after bone cement injection.
