1. |
Gibbons K J, Soloniuk D S, Razack N. Neurological injury and patterns of sacral fractures. J Neurosurg, 1990, 72(6): 889-893.
|
2. |
贾健, 胡永成, 张铁良, 等. 骶骨骨折的诊治现状. 中华骨科杂志, 2009, 29(12): 1168-1176.
|
3. |
Hart R A, Badra M I, Madala A, et al. Use of pelvic incidence as a guide to reduction of H-type spino-pelvic dissociation injuries. J Orthop Trauma, 2007, 21(6): 369-374.
|
4. |
Robertson P A, Sherwood M J, Hadlow A T. Lumbosacral dislocation injuries: management and outcomes. J Spinal Disord Tech, 2005, 18(3): 232-237.
|
5. |
张伟, 郭兴锋, 张竞, 等. 应用椎弓根系统经腰-髂间固定治疗骶骨骨折. 中国修复重建外科杂志, 2010, 24(5): 521-524.
|
6. |
König M A, Jehan S, Boszczyk A A, et al. Surgical management of U-shaped sacral fractures: a systematic review of current treatment strategies. European Spine Journal, 2012, 21(5): 829-836.
|
7. |
Gribnau A J, van Hensbroek P B, Haverlag R, et al. U-shaped sacral fractures: surgical treatment and quality of life. Injury, 2009, 40(10): 1040-1048.
|
8. |
Keating J F, Werier J, Blachut P, et al. Early fixation of the vertically unstable pelvis: the role of iliosacral screw fixation of the posterior lesion. J Orthop Trauma, 1999, 13(2): 107-113.
|
9. |
Zhao Y, Zhang S, Sun T, et al. Mechanical comparison between lengthened and short sacroiliac screws in sacral fracture fixation: a finite element analysis. Orthopaedics & Traumatology, 2013, 99(5): 601-606.
|
10. |
Käch K, Trentz O. Distraction spondylodesis of the sacrum in "vertical shear lesions” of the pelvis. Der Unfallchirurg, 1994, 97(1): 28-38.
|
11. |
Schildhauer T A, Ledoux W R, Chapman J R, et al. Triangular osteosynthesis and iliosacral screw fixation for unstable sacral fractures: a cadaveric and biomechanical evaluation under cyclic loads. J Orthop Trauma, 2003, 17(1): 22-31.
|
12. |
Berber O, Amis A A, Day A C. Biomechanical testing of a concept of posterior pelvic Reconstruction in rotationally and vertically unstable fractures. Journal of Bone and Joint Surgery-British Volume, 2011, 93B(2): 237-244.
|
13. |
Griffin D R, Starr A J, Reinert C M, et al. Vertically unstable pelvic fractures fixed with percutaneous iliosacral screws: does posterior injury pattern predict fixation failure?. J Orthop Trauma, 2006, 20(1): S30-S36.
|
14. |
Chen Hongwei, Liu Guodong, Fei Jun, et al. Treatment of unstable posterior pelvic ring fracture with percutaneous reconstruction plate and percutaneous sacroiliac screws: a comparative study. J Orthop Sci, 2012, 17(5): 580-587.
|
15. |
Schildhauer T A, Bellabarba C, Nork S E, et al. Decompression and lumbopelvic fixation for sacral fracture-dislocations with spino-pelvic dissociation. J Orthop Trauma, 2006, 20(7): 447-457.
|
16. |
Bellabarba C, Schildhauer T A, Vaccaro A R, et al. Complications associated with surgical stabilization of high-grade sacral fracture dislocations with spino-pelvic instability. Spine, 2006, 31(11 Sl): S80-S88.
|
17. |
Piltz S, Rubenbauer B, Böcker W. Reduction and fixation of displaced U-shaped sacral fractures using lumbopelvic fixation: technical recommendations. European Spine Journal, 2018, 27(12): 3025-3033.
|
18. |
易成腊, 刘振辉, 白祥军, 等. 腰椎-骨盆固定治疗U型骶骨骨折. 中华创伤骨科杂志, 2012, 14(9): 767-771.
|
19. |
Du Chengfei, Mo Zhongjun, Tian Shan, et al. Biomechanical investigation of thoracolumbar spine in different postures during ejection using a combined finite element and multi-body approach. Int J Numer Method Biomed Eng, 2014, 30(11): 1121-1131.
|
20. |
Panagiotacopulos N D, Pope M H, Krag M H, et al. Water content in human intervertebral discs. Part I. Measurement by magnetic resonance imaging. Spine, 1987, 12(9): 912-917.
|
21. |
Mason L W, Chopra I, Mohanty K. The percutaneous stabilisation of the sacroiliac joint with hollow modular Anchorage screws:a prospective out-come study. Eur Spine J, 2013, 22(10): 2325-2331.
|
22. |
Oonishi H, Isha H, Hasegawa T. Mechanical analysis of the human pelvis and its application to the artificial hip joint-by means of the three dimensional finite element method. J Biomech, 1983, 16(6): 427-444.
|
23. |
Dalstra M, Huiskes R, Vanerning L. Development and validation of a three-dimensional finite-element model of the pelvic bone. Journal of Biomechanical Engineering, 1995, 117(3): 272-278.
|
24. |
Lu Y M, Hutton W C, Gharpuray V M. The effect of fluid loss on the viscoelastic behavior of the lumbar intrevertebral disc in compression. J Biomech Eng, 1998, 120(1): 48-54.
|
25. |
Faizan A, Sairyo K, Goel V K, et al. Biomechanical rationale of ossification of the secondary ossification center on apophyseal bony ring fracture: a biomechanical study. Clinical Biomechanics, 2007, 22(10): 1063-1067.
|
26. |
Zhang Lihai, Peng Ye, Du Chengfei, et al. Biomechanical study of four kinds of percutaneous screw fixation in two types of unilateral sacroiliac joint dislocation: a finite element analysis. Injury, 2014, 45(12): 2055-2059.
|
27. |
都承斐, 李俊伟, 刘海英, 等. 随动载荷对腰椎小关节接触力的影响. 医用生物力学, 2017, 32(4): 363-368.
|
28. |
Schmidt H, Heuer F, Simon U, et al. Application of a new calibration method for a three-dimensional finite element model of a human lumbar annulus fibrosus. Clinical Biomechanics, 2006, 21(4): 337-344.
|
29. |
Diwan A D, Parvataneni H K, Khan S N, et al. Current concepts in intervertebral disk restoration. Orthopedic Clinics, 2000, 31(3): 453-464.
|
30. |
郑启新, 邹枕玮, 郭晓东. 腰椎间盘退变性疾病的研究进展及展望. 中华实验外科杂志, 2010, 27(11): 1573-1576.
|