中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2013年
6期
640-648
,共9页
胡勇%袁振山%谢辉%袁建兵%董伟鑫%王成焘%顾勇杰%马维虎%徐荣明
鬍勇%袁振山%謝輝%袁建兵%董偉鑫%王成燾%顧勇傑%馬維虎%徐榮明
호용%원진산%사휘%원건병%동위흠%왕성도%고용걸%마유호%서영명
枢椎%骨螺丝%外科手术,计算机辅助
樞椎%骨螺絲%外科手術,計算機輔助
추추%골라사%외과수술,계산궤보조
Axis%Bone screws%Surgery,computer-assisted
目的 验证在快速成型导向模板辅助下枢椎椎板交叉螺钉置钉的安全性、准确性及偏差因素分析.方法 选取正常颈椎标本18具,行螺旋CT扫描.扫描数据经Mimics软件三维重建后行枢椎椎板交叉螺钉最佳钉道的计算机辅助设计,建立与枢椎椎板及棘突后表面解剖结构互补的基板,组合形成导向模板.在激光快速成型机上进行导向模板实体化,利用导向模板辅助置钉.扫描置钉后的标本,分割重建螺钉钉道路径.将置钉前后的标本配对拟合,测量理想钉道与实际螺钉的进钉点及进钉角度.结果 上、下位椎板螺钉理想钉道长度分别为(29.12±1.39)、(29.62±1.40) mm;内倾角分别为56.20°±2.07°、56.02°±1.72°.下位椎板螺钉实际钉道内倾角和尾倾角分别为56.28°±1.54°、0.13°±0.65°;上位椎板分别为55.48°±1.75°、-0.19°±1.54°.下位椎板螺钉进钉点在X、Y、Z轴上的偏移分别为(0.69±1.79)、(2.54±4.86)、(0.63±1.37) mm;上位椎板分别为(0.64±1.61)、(2.36±4.85)、(0.62±1.38) mm.理想钉道与实际螺钉进钉点、钉道方向的差异无统计学差异.结论 利用数字化快速成型导向模板技术辅助枢椎椎板交叉螺钉置钉提高了置钉的安全性和准确性,理论上可降低椎动脉和脊髓损伤的风险.
目的 驗證在快速成型導嚮模闆輔助下樞椎椎闆交扠螺釘置釘的安全性、準確性及偏差因素分析.方法 選取正常頸椎標本18具,行螺鏇CT掃描.掃描數據經Mimics軟件三維重建後行樞椎椎闆交扠螺釘最佳釘道的計算機輔助設計,建立與樞椎椎闆及棘突後錶麵解剖結構互補的基闆,組閤形成導嚮模闆.在激光快速成型機上進行導嚮模闆實體化,利用導嚮模闆輔助置釘.掃描置釘後的標本,分割重建螺釘釘道路徑.將置釘前後的標本配對擬閤,測量理想釘道與實際螺釘的進釘點及進釘角度.結果 上、下位椎闆螺釘理想釘道長度分彆為(29.12±1.39)、(29.62±1.40) mm;內傾角分彆為56.20°±2.07°、56.02°±1.72°.下位椎闆螺釘實際釘道內傾角和尾傾角分彆為56.28°±1.54°、0.13°±0.65°;上位椎闆分彆為55.48°±1.75°、-0.19°±1.54°.下位椎闆螺釘進釘點在X、Y、Z軸上的偏移分彆為(0.69±1.79)、(2.54±4.86)、(0.63±1.37) mm;上位椎闆分彆為(0.64±1.61)、(2.36±4.85)、(0.62±1.38) mm.理想釘道與實際螺釘進釘點、釘道方嚮的差異無統計學差異.結論 利用數字化快速成型導嚮模闆技術輔助樞椎椎闆交扠螺釘置釘提高瞭置釘的安全性和準確性,理論上可降低椎動脈和脊髓損傷的風險.
목적 험증재쾌속성형도향모판보조하추추추판교차라정치정적안전성、준학성급편차인소분석.방법 선취정상경추표본18구,행라선CT소묘.소묘수거경Mimics연건삼유중건후행추추추판교차라정최가정도적계산궤보조설계,건립여추추추판급극돌후표면해부결구호보적기판,조합형성도향모판.재격광쾌속성형궤상진행도향모판실체화,이용도향모판보조치정.소묘치정후적표본,분할중건라정정도로경.장치정전후적표본배대의합,측량이상정도여실제라정적진정점급진정각도.결과 상、하위추판라정이상정도장도분별위(29.12±1.39)、(29.62±1.40) mm;내경각분별위56.20°±2.07°、56.02°±1.72°.하위추판라정실제정도내경각화미경각분별위56.28°±1.54°、0.13°±0.65°;상위추판분별위55.48°±1.75°、-0.19°±1.54°.하위추판라정진정점재X、Y、Z축상적편이분별위(0.69±1.79)、(2.54±4.86)、(0.63±1.37) mm;상위추판분별위(0.64±1.61)、(2.36±4.85)、(0.62±1.38) mm.이상정도여실제라정진정점、정도방향적차이무통계학차이.결론 이용수자화쾌속성형도향모판기술보조추추추판교차라정치정제고료치정적안전성화준학성,이론상가강저추동맥화척수손상적풍험.
Objective To validate the security and accuracy of C2 crossing laminar screws placement under the assistance of rapid prototyping oriented template.Methods CT scan was performed in the 18 normal cervical specimens.The data were reconstructed by software Mimics 10.01.The ideal trajectory for C2 crossing laminar screws were designed with a baseplate which is a complementary template for posterior lamina and spinous process,then materialize drill guide template in rapid prototyping machine.The screws were segmented in Mimics after CT scanning.The entry point and nail way direction of the ideal and actual trajectory were measured after matching the position of the pre-and post-operative specimen,whose coordinate axis has been fitted.Results The average depth of the superior and inferior C2 laminar screw were 29.12±1.39 and 29.62±1.40 mm,the average introversion of ideal C2 crossing laminar screw was 56.20°±2.07° and 56.02°±1.72°,the mean introversion and elevation angle of the inferior actual C2 laminar screw were 56.28°±1.54° and 0.13°±0.65°,the mean introversion and elevation angle of the superior actual C2 laminar screw were 55.48°±1.75° and-0.19°±1.54°,respectively.The average displacement of the entry point of inferior C2 crossing laminar screw in the X,Y,Z axis were 0.69±1.79,2.54±4.86,and 0.63±1.37 mm,respectively,which of the superior C2 were 0.64±1.61,2.36±4.85,and 0.62±1.38 mm,respectively.No statistically significant difference was found between the ideal nail way and actual nail way in the deviation of entry point and nail way direction.Conclusion The safety and accuracy of C2 crossing laminar screws placement has been improved by using computer-assist drill guide template technology,which avoids the risk of vertebral artery and spinal cord injury.
