中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2010年
4期
411-416
,共6页
吴浩波%蔡春元%季康%余世策%严世贵
吳浩波%蔡春元%季康%餘世策%嚴世貴
오호파%채춘원%계강%여세책%엄세귀
髋臼%体层摄影术,X线计算机%骨螺丝
髖臼%體層攝影術,X線計算機%骨螺絲
관구%체층섭영술,X선계산궤%골라사
Acetabulum%Tomography,X-ray computed%Bone screws
目的 基于骨盆的解部剖结构,提出一种经髋臼长螺钉的固定方法,并测算钉道进钉区位置和进钉的方向角度.方法 使用20例成年男性半骨盆的CT数据,使用三维建模技术对半骨盆骨骼进行重建和分区,每半骨盆分成髂后区、髂前区、耻骨区和坐骨区,并对每一分区进行平行截骨获得每层断层轮廓数据;通过断层轮廓控制有效钉道的范围,并使用计算辅助程序对有效钉道的进钉点在髋臼上的位置进行测算,再对经过每个有效进钉点的所有有效钉道进行再次优化选择,最后获得相对应的最佳钉道的方向,最后将进钉区域和角度以拓扑地形图的格式显示.结果 计算结果显示半骨盆的解剖结构允许经髋臼螺钉进行加长应用,经髋臼长螺钉进钉区的范围大小依次是髂后区、髂前区、耻骨区和坐骨区,其中髂后和髂前区进钉区有部分重叠,坐骨区进钉长度无法到达坐骨支远1/3部.结论 在解剖上,改变经髋臼螺钉的植入方向,可以在骨盆的各个分区内获得加长螺钉的固定.
目的 基于骨盆的解部剖結構,提齣一種經髖臼長螺釘的固定方法,併測算釘道進釘區位置和進釘的方嚮角度.方法 使用20例成年男性半骨盆的CT數據,使用三維建模技術對半骨盆骨骼進行重建和分區,每半骨盆分成髂後區、髂前區、恥骨區和坐骨區,併對每一分區進行平行截骨穫得每層斷層輪廓數據;通過斷層輪廓控製有效釘道的範圍,併使用計算輔助程序對有效釘道的進釘點在髖臼上的位置進行測算,再對經過每箇有效進釘點的所有有效釘道進行再次優化選擇,最後穫得相對應的最佳釘道的方嚮,最後將進釘區域和角度以拓撲地形圖的格式顯示.結果 計算結果顯示半骨盆的解剖結構允許經髖臼螺釘進行加長應用,經髖臼長螺釘進釘區的範圍大小依次是髂後區、髂前區、恥骨區和坐骨區,其中髂後和髂前區進釘區有部分重疊,坐骨區進釘長度無法到達坐骨支遠1/3部.結論 在解剖上,改變經髖臼螺釘的植入方嚮,可以在骨盆的各箇分區內穫得加長螺釘的固定.
목적 기우골분적해부부결구,제출일충경관구장라정적고정방법,병측산정도진정구위치화진정적방향각도.방법 사용20례성년남성반골분적CT수거,사용삼유건모기술대반골분골격진행중건화분구,매반골분분성가후구、가전구、치골구화좌골구,병대매일분구진행평행절골획득매층단층륜곽수거;통과단층륜곽공제유효정도적범위,병사용계산보조정서대유효정도적진정점재관구상적위치진행측산,재대경과매개유효진정점적소유유효정도진행재차우화선택,최후획득상대응적최가정도적방향,최후장진정구역화각도이탁복지형도적격식현시.결과 계산결과현시반골분적해부결구윤허경관구라정진행가장응용,경관구장라정진정구적범위대소의차시가후구、가전구、치골구화좌골구,기중가후화가전구진정구유부분중첩,좌골구진정장도무법도체좌골지원1/3부.결론 재해부상,개변경관구라정적식입방향,가이재골분적각개분구내획득가장라정적고정.
Objective To overcome the inherent limitations of traditional technique, we promoted that long transacetabular screws could be safely implanted into ilium, pubis and ischium. Methods Twenty 3D hemi-pelvis models were constructed using CT data, and each was divided into four parts: posterior ilium, anterior ilium, pubis and ischium. Each part was undertaken parallel osteotomy and the contour coordinates of each section were recorded. The acetabular cup in each model was defined as a hemisphere with 52 mm diameter. An uniform lattice at equal intervals of 2° in longitude-latitude on the acetabular cup were regard-ed as entry points. A computer aided program was developed to simulate screw trajectories in all directions through every entry point, then select out all the useful entry points and corresponding trajectories. Then the optimum direction of screw trajectory of each entry point was also calculated. Topographic maps of entry zone were delineated in the acetabular quadrant system to present the results. Results According the bone anatomy, the posterior ilium was the most favorable area for the implantation of long screws, secondly the an-terior ilium, thirdly the pubis and minimally the ischium. The entry zone in posterior ilium has the longitude from -148.0° to 29.2°, latitude from 7.5° to 87.3°, and α angle for trajectory direction was from -85.3° to -53.8°,β angle from 46.3° to 60.2°. In anterior ilium has the longitude from -29.0° to 31.4°, latitude from 7.6° to 54.2°, and α angle was from -36.2° to -49.8° ,β angle from 19.7° to 33.8°. In pubis has the longi-tude from 56.4° to 100.6°, latitude from 6.8° to 23.2°, and α angle was from 91.3° to 117.2°, β angle from 10.5° to 17.9°. And the anatomy of ischium was not permitted transacetabular screws to reach the distant 1/3 part of the isehium ramus. Conclusion The long transacetabular screws were permitted to deeper insertion when the trajectories were not perpendicular to the cup wall. The computer-aided system developed in the study was useful for screw trajectory simulation and selection.