1. |
Ding C, Wang S, Shangguan Y, et al. Epidemic trends of tuberculosis in China from 1990 to 2017: Evidence from the global burden of disease study. Infect Drug Resist, 2020, 13: 1663-1672.
|
2. |
Yang S, Yu Y, Ji Y, et al. Multi-drug resistant spinal tuberculosis-epidemiological characteristics of in-patients: a multicentre retrospective study. Epidemiol Infect, 2020, 148: e11. doi: 10.1017/S0950268820000011.
|
3. |
Liu Z, Zhang P, Li W, et al. Posterior-only vs. combined posterior-anterior approaches in treating lumbar and lumbosacral spinal tuberculosis: a retrospective study with minimum 7-year follow-up. J Orthop Surg Res, 2020, 15(1): 99. doi: 10.1186/s13018-020-01616-7.
|
4. |
Chen G, Xin B, Yin M, et al. Biomechanical analysis of a novel height-adjustable nano-hydroxyapatite/polyamide-66 vertebral body: a finite element study. J Orthop Surg Res, 2019, 14(1): 368. doi: 10.1186/s13018-019-1432-2.
|
5. |
Ayele BA, Wako A, Tadesse J, et al. Pott’s paraplegia and role of neuroimaging in resource limited setting: A case report and brief review of the literatures. J Clin Tuberc Other Mycobact Dis, 2021, 25: 100283. doi: 10.1016/j.jctube.2021.100283.
|
6. |
Bridwell KH, Lenke LG, McEnery KW, et al. Anterior fresh frozen structural allografts in the thoracic and lumbar spine. Do they work if combined with posterior fusion and instrumentation in adult patients with kyphosis or anterior column defects? Spine (Phila Pa 1976), 1995, 20(12): 1410-1418.
|
7. |
Dunn RN, Ben Husien M. Spinal tuberculosis: review of current management. Bone and Joint Journal, 2018, 100-B(4): 425-431.
|
8. |
崔旭, 马远征, 陈兴, 等. 老年脊柱结核患者的临床特点和术式选择. 中华骨科杂志, 2014, 34(2): 189-195.
|
9. |
Teo AKJ, Singh SR, Prem K, et al. Duration and determinants of delayed tuberculosis diagnosis and treatment in high-burden countries: a mixed-methods systematic review and meta-analysis. Respir Res, 2021, 22(1): 251. doi: 10.1186/s12931-021-01841-6.
|
10. |
Zhang HQ, Li M, Wang YX, et al. Minimum 5-year follow-up outcomes for comparison between titanium mesh cage and allogeneic bone graft to reconstruct anterior column through posterior approach for the surgical treatment of thoracolumbar spinal tuberculosis with kyphosis. World Neurosurg, 2019, 127: e407-e415.
|
11. |
Fan J, Lan T, Tang K, et al. The comparative influence of 2 and 4 weeks preoperative antituberculosis treatment on spinal tuberculosis surgery: A multicenter, prospective, randomized clinical trial. Infect Dis Ther, 2021, 10(3): 1451-1463.
|
12. |
Sun D, Zhang ZH, Mei G, et al. Comparison of anterior only and combined anterior and posterior approach in treating lumbosacral tuberculosis. Sci Rep, 2019, 9(1): 18475. doi: 10.1038/s41598-019-53800-3.
|
13. |
Wu W, Li Z, Wang S, et al. One-stage surgical treatment for consecutive multisegment thoracic spinal tuberculosis with kyphosis by posterior-only debridement, interbody fusion, and instrumentation. World Neurosurg, 2019, 128: e238-e244.
|
14. |
Li Y, Du Y, Ji A, et al. The clinical effect of manual reduction combined with internal fixation through Wiltse paraspinal approach in the treatment of thoracolumbar fracture. Orthop Surg, 2021, 13(8): 2206-2215.
|
15. |
陈小明, 冷晶晶, 刘国萍, 等. 经皮椎弓根钉内固定联合扩张通道微创侧方小切口病灶清除椎间植骨治疗腰椎结核. 中国修复重建外科杂志, 2021, 35(1): 46-50.
|
16. |
Ying XZ, Shi SY, Zheng Q, et al. Treatment of lumbar tuberculosis by mini-open anterior approach focal cleaning combined with posterior internal fixation. Med Sci Monit, 2017, 23: 4158-4165.
|
17. |
王旭, 李沐风, 朱宇航, 等. 颈椎结核手术治疗中内植物的应用进展. 中国修复重建外科杂志, 2022, 36(1): 122-126.
|
18. |
卢腾, 高中洋, 贺西京, 等. 新型解剖型钛笼可提高终板的支撑强度: 基于影像学及生物力学方法. 南方医科大学学报, 2019, 39(4): 409-414.
|
19. |
An TY, Kim JY, Lee YS. Risk factors and radiologic changes in subsidence after single-level anterior cervical corpectomy: A minimum follow-up of 2 years. Korean J Neurotrauma, 2021, 17(2): 126-135.
|
20. |
Li S, Huan Y, Zhu B, et al. Research progress on the biological modifications of implant materials in 3D printed intervertebral fusion cages. J Mater Sci Mater Med, 2021, 33(1): 2. doi: 10.1007/s10856-021-06609-4.
|
21. |
吴家昌, 李修往, 方国芳. 3D打印人工椎体在脊柱肿瘤手术中的设计及初步应用. 中华创伤骨科杂志, 2020, 22(10): 855-861.
|
22. |
Migliorini F, Cuozzo F, Torsiello E, et al. Autologous bone grafting in trauma and orthopaedic surgery: an evidence-based narrative review. J Clin Med, 2021, 10(19): 4347. doi: 10.3390/jcm10194347.
|
23. |
Migliorini F, La Padula G, Torsiello E, et al. Strategies for large bone defect reconstruction after trauma, infections or tumour excision: a comprehensive review of the literature. Eur J Med Resh, 2021, 26(1): 118. doi: 10.1186/s40001-021-00593-9.
|
24. |
Zhu G, Zhang T, Chen M, et al. Bone physiological microenvironment and healing mechanism: basis for future bone-tissue engineering scaffolds. Bioact Mater, 2021, 6(11): 4110-4140.
|
25. |
Xiong Y, Ren C, Zhang B, et al. Analyzing the behavior of a porous nano-hydroxyapatite/polyamide 66 (n-ha/pa66) composite for healing of bone defects. Int J Nanomedicine, 2014, 9: 485-494.
|
26. |
修鹏, 宋跃明, 李涛, 等. 纳米羟基磷灰石/聚酰胺66在胸腰椎结核病灶清除术后椎体重建应用中的长期临床观察. 中国脊柱脊髓杂志, 2020, 30(10): 888-895.
|
27. |
Zhao W, Li Y, Zhou A, et al. Controlled release of basic fibroblast growth factor from a peptide biomaterial for bone regeneration. R Soc Open Sci, 2020, 7(4): 191830. doi: 10.1098/rsos.191830.
|
28. |
Zhong W, Liang X, Luo X, et al. Imaging evaluation of nano-hydroxyapatite/polyamide 66 strut in cervical construction after 1-level corpectomy: a retrospective study of 520 patients. Eur J Med Res, 2020, 25(1): 38. doi: 10.1186/s40001-020-00440-3.
|