目的　探讨S1椎不能横形置入骶髂螺钉固定骶骨Ⅲ区骨折时，置入S2横形螺钉的安全参数。  方法　用Mimics软件对96例骨盆CT数据进行三维重建，模拟横形置入S1、S2螺钉，根据能否横形置入S1螺钉将骶骨病例分为正常组与变异组。重建骨盆周围软组织，确定S2横形螺钉进钉点B、髂前上棘顶点M、髂嵴上点N的体表投影点B1、M1、N1，并测量各点间的长度。  结果　正常组男、女B1M1长度分别为(140.94±16.64) mm、(143.95±16.27) mm，均明显大于变异组男、女B1M1的长度(129.37±14.93) mm、(132.07±16.84) mm (P男＜0.05，P女＜0.05)。正常组与变异组B1N1的长度男性分别为(69.92±6.73) mm、(72.64±7.46) mm，女性分别为(60.80±7.05)mm、(58.85±7.81) mm，其差异均无统计学意义(P男＞0.05，P女＞0.05)。正常组与变异组M1N1的长度男性分别为(157.58±16.83) mm、(150.48±13.21) mm，女性分别为(156.79±15.84)mm、(151.49±16.58)mm，其差异均无统计学意义(P男＞0.05，P女＞0.05)。   结论　当S1椎为腰骶移行椎、高位骶骨或骶骨翼斜坡陡峭变异时不能横形置入骶髂螺钉，可经S2横形置入直径7.0 mm螺钉固定骶骨Ⅲ区骨折，术者在透视监视下可通过触摸髂前上棘及髂嵴来确定S2螺钉的体表进钉点。

Objective 　To investigate the safety parameters of S2 transverse screw when the sacroiliac screw cannot be transversely placed into the first sacral(S1) vertebra to fix zone Ⅲ sacral fractures.    Methods    The 3-D models of 96 pelvis were reconstructed by Mimics software based on CT data, and the virtual S1 transverse sacroiliac screws were placed. When the transverse sacroiliac screw cannot be safely inserted in S1, it would be regarded as a dysplasia. There were 34 S1 vertebrae which belonged to the dysplasia group, and the other paired 34 S1 vertebrae according to gender were classified to the normal group. Placement of the S2 transverse sacroiliac screws were simulated in 68 S2 vertebrae, and then the parameters of screw paths were measured respectively. The soft tissues on pelvic surface were generated by Mimics, and then the body surface projections of S2 transverse screw's entry point B, anterior superior iliac spine’s vertex M, iliac crest point N were determined as B1, M1, N1, respectively. At the same time, the lengths of B1M1, B1N1 and M1N1 were measured in section.　Results　There was significant difference in the lengths of the line B1M1, which were (140.94±16.64) mm and (129.37±14.93) mm in male between the normal group and the dysplasia group (P<0.05), and the lengths of the line B1M1 were (143.95±16.27) mm and (132.07±16.84) mm in female with statistical difference between the normal group and the dysplasia group (P<0.05). The lengths of the line B1N1 in the normal group and the dysplasia group were (69.92±6.73) mm and (72.64±7.46) mm in male with no statistical difference (P>0.05), and were (60.80±7.05) mm and (58.85±7.81) mm in female with no statistical difference (P>0.05). The lengths of the line M1N1 were (157.58±16.83) mm and (150.48±13.21)mm in male of the normal group and dysplasia group, which showed no statistical difference (P>0.05). Similarly, there was no significant difference in the lengths of the line M1N1, which were (156.79±15.84) mm and (151.49±16.59) mm in female between the two groups (P>0.05).　Conclusion　When the sacroiliac screw cannot be transversely placed in dysplasia S1 vertebra including lumbosacral transitional vertebrae, sacrum not recessed in pelvis andacute alar slope. A 7.0 mm sacroiliac screw can be inserted in S2 vertebra for fixing zone Ⅲ sacral fractures. Under fluoroscopic monitoring, the body surface entry point of S2 screw can be determined by touching the bony landmarks of the anterior superior iliac spine andiliac crest.