1. Highly Effective Bone Fusion Induced by the Interbody Cage Made of Calcium Silicate/Polyetheretherketone in a Goat Model
- Author
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Youzhuan Xie, Jie Zhao, Kai Zhang, Zhifeng Yu, Linyang Chu, Zhenhua Liao, Rui Li, Jie Wei, Jianjun Dai, Tingting Tang, Feng Zhang, and Ying Yang
- Subjects
Materials science ,Bone fusion ,0206 medical engineering ,Biomedical Engineering ,02 engineering and technology ,021001 nanoscience & nanotechnology ,medicine.disease ,020601 biomedical engineering ,Osseointegration ,Degenerative disc disease ,Biomaterials ,chemistry.chemical_compound ,Spine surgery ,chemistry ,Interbody cage ,Calcium silicate ,medicine ,Peek ,0210 nano-technology ,Cage ,Biomedical engineering - Abstract
Interbody fusion surgery is often used to settle matters such as degenerative disc disease or disc herniation in clinical orthopedics. Considering the deficiencies of the current treatment methods, we developed an interbody fusion cage made of calcium silicate (CS)/polyetheretherketone (PEEK) and hoped that the bioactive cage could exhibit great fusion ability and maintain stable mechanical function. In the goat model of cervical interbody fusion, the CS/PEEK cage showed stronger interbody fusion at 12 and 26 weeks compared with pure PEEK cage based on the X-ray analysis. The micro-CT scanning and analysis indicated that the CS/PEEK cage induced more new bone ingrowth than the PEEK cage and led to nearly complete interbody fusion at 26 weeks. Moreover, the CS/PEEK group showed excellent mechanical stability and stiffness as evaluated by the spine kinematic assay at the time points. The histological assessment showed the rapid osseointegration and mineralized bone formation around the CS/PEEK cage. This study confirmed that the bioactive CS/PEEK cage is capable of inducing highly effective bone fusion and has high potential to be used in the clinics of spine surgery.
- Published
- 2019