颈椎椎旁孔螺钉、侧块螺钉和椎弓根螺钉生物力学性能比较

Q4 Medicine 中华骨科杂志 Pub Date : 2020-02-16 DOI:10.3760/CMA.J.ISSN.0253-2352.2020.04.006

Xi Chen, Xinyu Liu, Qing Yang, Yifan Liu, Suomao Yuan

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For each vertebra, one side was randomly chosen for direct pullout strength test (speed 5 mm/s), and the other side for fatigue test (displacement ±1.0 mm, frequency 1 Hz, 500 cycles) and residual pullout strength test. 4.5 mm × 12 mm screws were used for PVFS, 3.5 mm × 14 mm screws for LMS, and 3.5 mm × 24 mm screws for PS. \n \n \nResults \nThe direct pullout strength was 327.10±17.07 N for PVFS, 305.71 ± 11.63 N for LMS, and 635.67 ± 22.82 N for PS. The residual pullout strength was 265.62 ±18.19 N for PVFS, 192.80 ±17.10 N for LMS, and 494.89 ±41.79 N for PS. The residual pullout strength of PVFS, LMS and PS respectively, compared with the direct pullout strength, decreased by 18.8%, 36.93% and 22.15% (tPVFS=7.795, tLMS=17.267, tPS=9.349, P<0.001). The direct pullout strength of PS was higher than that of PVFS and LMS(t=34.245, t=40.741, P< 0.001), as well as PVFS was slightly higher than LMS (t=3.275, P=0.004). The residual pullout strength of PS was the highest, PVFS was the second, and LMS was the smallest (F=314.619, P<0.001). For the fatigue test, the load at the first cycle and the first time when the set position was reached of PVFS were higher than those of LMS (t=3.625, P=0.002; t=5.388, P<0.001) and PS (t=2.575, P=0.019; t=2.680, P=0.015), but there was no difference between those of LMS and PS (t=0.609, P=0.550; t=1.953, P=0.067). The load at the last cycle of PVFS and PS was higher than that of LMS (t=5.341, P<0.001; t=3.439, P=0.003), while there was no difference between PVFS and PS (t=1.606, P=0.126). \n \n \nConclusion \nThe direct pullout strength of PVFS was slightly higher than that of LMS, and the residual pullout strength was significantly higher than LMS. The property of fatigue resistance of PVFS was similar to PS and obviously better than LMS. 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摘要

目的比较椎旁孔螺钉（PVFS）、侧块螺钉（LMS）和椎弓根螺钉（PS）的生物力学强度。方法从8具死亡时平均年龄为45.3±11.2岁的新鲜冷冻尸体标本中采集30块人颈椎（C3-C6）。脊椎被随机分为三组，用于特定的螺钉。对于每个椎骨，随机选择一侧进行直接拉拔强度试验（速度5mm/s），另一侧进行疲劳试验（位移±1.0mm，频率1Hz，500个循环）和残余拉拔强度试验。结果PVFS的直接拔出强度为327.10±17.07N，LMS为305.71±11.63N，PS为635.67±22.82N。PVFS的残余拔出强度分别为265.62±18.19N、192.80±17.10N和494.89±41.79N，LMS和PS的直接拉拔强度分别比直接拉拔强度下降18.8%、36.93%和22.15%（tPVFS=7.795，tLS=17.267，tPS=9.349，P<0.001），在疲劳试验中，PVFS的第一个循环和第一次到达设定位置时的载荷高于LMS（t=3.625，P=0.002；t=5.388，P<0.001）和PS（t=2.575，P=0.019；t=2.680，P=0.015），但LMS和PS之间没有差异（t=0.609，P=0.550；t=1.953，P=0.067）。PVFS和PS在最后一个周期的载荷高于LMS（t=5.341，P<0.001；t=3.439，P=0.003），而PVFS和PS之间没有差别（t=1.606，P=0.126）。结论PVFS的直接拔出强度略高于LMS，并且残余拔出强度显著高于LMS。PVFS的抗疲劳性能与PS相近，明显优于LMS。总之，PVFS可以作为LMS和PS的有效替代品。关键词：颈椎；脊柱融合术；骨螺钉；生物力学

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Comparison of biomechanical properties of cervical paravertebral foramen screws, lateral mass screws and pedicle screws

Objective To investigate and compare the biomechanical strength of paravertebral foramen screws (PVFS), lateral mass screws (LMS) and pedicle screws (PS). Methods A total of 30 human cervical spine vertebrae (C3-C6) were harvested from 8 fresh-frozen cadaver specimens whose mean age was 45.3±11.2 years at death. The vertebrae were randomly divided into three groups for specific screws. For each vertebra, one side was randomly chosen for direct pullout strength test (speed 5 mm/s), and the other side for fatigue test (displacement ±1.0 mm, frequency 1 Hz, 500 cycles) and residual pullout strength test. 4.5 mm × 12 mm screws were used for PVFS, 3.5 mm × 14 mm screws for LMS, and 3.5 mm × 24 mm screws for PS. Results The direct pullout strength was 327.10±17.07 N for PVFS, 305.71 ± 11.63 N for LMS, and 635.67 ± 22.82 N for PS. The residual pullout strength was 265.62 ±18.19 N for PVFS, 192.80 ±17.10 N for LMS, and 494.89 ±41.79 N for PS. The residual pullout strength of PVFS, LMS and PS respectively, compared with the direct pullout strength, decreased by 18.8%, 36.93% and 22.15% (tPVFS=7.795, tLMS=17.267, tPS=9.349, P<0.001). The direct pullout strength of PS was higher than that of PVFS and LMS(t=34.245, t=40.741, P< 0.001), as well as PVFS was slightly higher than LMS (t=3.275, P=0.004). The residual pullout strength of PS was the highest, PVFS was the second, and LMS was the smallest (F=314.619, P<0.001). For the fatigue test, the load at the first cycle and the first time when the set position was reached of PVFS were higher than those of LMS (t=3.625, P=0.002; t=5.388, P<0.001) and PS (t=2.575, P=0.019; t=2.680, P=0.015), but there was no difference between those of LMS and PS (t=0.609, P=0.550; t=1.953, P=0.067). The load at the last cycle of PVFS and PS was higher than that of LMS (t=5.341, P<0.001; t=3.439, P=0.003), while there was no difference between PVFS and PS (t=1.606, P=0.126). Conclusion The direct pullout strength of PVFS was slightly higher than that of LMS, and the residual pullout strength was significantly higher than LMS. The property of fatigue resistance of PVFS was similar to PS and obviously better than LMS. In summary, PVFS can be used as an effective substitute for LMS and PS. Key words: Cervical vertebrae; Spinal fusion; Bone screws; Biomechanics

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中华骨科杂志 Medicine-Surgery

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0.80

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8153

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