中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2008年
8期
667-672
,共6页
梅炯%倪明%陈雁西%俞秀茂%高悠水%王先辉%窦帮%蔡宣松
梅炯%倪明%陳雁西%俞秀茂%高悠水%王先輝%竇幫%蔡宣鬆
매형%예명%진안서%유수무%고유수%왕선휘%두방%채선송
截肢术%骨盆%解剖学,局部%生物力学
截肢術%骨盆%解剖學,跼部%生物力學
절지술%골분%해부학,국부%생물역학
Amputation%Pelvis%Anatomy,regional%Biomechanies
目的 探讨对骨盆肿瘤行半骨盆截肢后,应用废弃自体骨重建坐骨结节和骨盆环以恢复骨盆承重功能的可行性.方法 带双侧下肢骨的10具骨盆标本,测量坐骨结节至正中矢状面和经骶骨耳状面中心冠状面的垂直距离、坐骨结节至同侧的骶骨耳状面和耻骨联合的距离.测量股骨髁和胫骨平台的最大径,对股骨和胫骨进行CT扫描并纵向剖开,观察骨质分布情况.根据解剖测量结果,选择4具成人尸体标本,应用电子万能试验机对完整骨盆和重建标本进行生物力学检测,比较两者在0-500 N的垂直加压下的稳定性.结果 坐骨结节至正中矢状面和经耳状面中心至冠状面的垂直距离分别为(4.52±0.48)cm和(3.31±0.57)cm.坐骨结节至同侧骶骨耳状面和耻骨联合的距离分别为(11.75±6.19)cm和(15.72±5.19)cm.股骨髁最大斜径在外后至内前方向平均为(7.93±0.44)cm,胫骨平台的最大径在冠状面上,平均为(7.19±0.61)cm.股骨髁和胫骨平台主要为松质骨,股骨髁松质骨平均纵向长度为(6.24±0.22)cm,胫骨上端平均纵向长度为(5.64±0.18)cm.在生物力学试验中,重建骨盆的抗压缩能力较完整骨盆弱,但在载荷去除后,重建骨盆和完整骨盆均可恢复原来的状态,说明重建骨盆和完整骨盆同样为弹性良好的刚体结构,具有较好的即刻稳定性.结论 半骨盆截肢后,可应用废弃股骨或胫骨重建坐骨结节和骨盆环,为患者坐立和装配假肢提供力学支持点,以降低半骨盆截肢者的残废程度.
目的 探討對骨盆腫瘤行半骨盆截肢後,應用廢棄自體骨重建坐骨結節和骨盆環以恢複骨盆承重功能的可行性.方法 帶雙側下肢骨的10具骨盆標本,測量坐骨結節至正中矢狀麵和經骶骨耳狀麵中心冠狀麵的垂直距離、坐骨結節至同側的骶骨耳狀麵和恥骨聯閤的距離.測量股骨髁和脛骨平檯的最大徑,對股骨和脛骨進行CT掃描併縱嚮剖開,觀察骨質分佈情況.根據解剖測量結果,選擇4具成人尸體標本,應用電子萬能試驗機對完整骨盆和重建標本進行生物力學檢測,比較兩者在0-500 N的垂直加壓下的穩定性.結果 坐骨結節至正中矢狀麵和經耳狀麵中心至冠狀麵的垂直距離分彆為(4.52±0.48)cm和(3.31±0.57)cm.坐骨結節至同側骶骨耳狀麵和恥骨聯閤的距離分彆為(11.75±6.19)cm和(15.72±5.19)cm.股骨髁最大斜徑在外後至內前方嚮平均為(7.93±0.44)cm,脛骨平檯的最大徑在冠狀麵上,平均為(7.19±0.61)cm.股骨髁和脛骨平檯主要為鬆質骨,股骨髁鬆質骨平均縱嚮長度為(6.24±0.22)cm,脛骨上耑平均縱嚮長度為(5.64±0.18)cm.在生物力學試驗中,重建骨盆的抗壓縮能力較完整骨盆弱,但在載荷去除後,重建骨盆和完整骨盆均可恢複原來的狀態,說明重建骨盆和完整骨盆同樣為彈性良好的剛體結構,具有較好的即刻穩定性.結論 半骨盆截肢後,可應用廢棄股骨或脛骨重建坐骨結節和骨盆環,為患者坐立和裝配假肢提供力學支持點,以降低半骨盆截肢者的殘廢程度.
목적 탐토대골분종류행반골분절지후,응용폐기자체골중건좌골결절화골분배이회복골분승중공능적가행성.방법 대쌍측하지골적10구골분표본,측량좌골결절지정중시상면화경저골이상면중심관상면적수직거리、좌골결절지동측적저골이상면화치골연합적거리.측량고골과화경골평태적최대경,대고골화경골진행CT소묘병종향부개,관찰골질분포정황.근거해부측량결과,선택4구성인시체표본,응용전자만능시험궤대완정골분화중건표본진행생물역학검측,비교량자재0-500 N적수직가압하적은정성.결과 좌골결절지정중시상면화경이상면중심지관상면적수직거리분별위(4.52±0.48)cm화(3.31±0.57)cm.좌골결절지동측저골이상면화치골연합적거리분별위(11.75±6.19)cm화(15.72±5.19)cm.고골과최대사경재외후지내전방향평균위(7.93±0.44)cm,경골평태적최대경재관상면상,평균위(7.19±0.61)cm.고골과화경골평태주요위송질골,고골과송질골평균종향장도위(6.24±0.22)cm,경골상단평균종향장도위(5.64±0.18)cm.재생물역학시험중,중건골분적항압축능력교완정골분약,단재재하거제후,중건골분화완정골분균가회복원래적상태,설명중건골분화완정골분동양위탄성량호적강체결구,구유교호적즉각은정성.결론 반골분절지후,가응용폐기고골혹경골중건좌골결절화골분배,위환자좌립화장배가지제공역학지지점,이강저반골분절지자적잔폐정도.
Objective To determine the possibility of restoring the weight bearing function of pelvis with autograft after hindquarter amputation.Methotis 10 pelves specimens with lower extremities involved in this study.To measure the perpendicular distance from ischial tuberosity to median sagittal plane and coronal plane through auricular surface center on 10 pelves.the distance from ischial tuberosity to ipsilateral facies auricularis and symphysis pubis,and the maximum oblique diameter of femoral condyle and tibia plateau.CT scan and cross section cut were performed to find the distribution of cancellous bone in distal femur and proximal tibia.Biomechanical study Was carried out on 4 intact and reconstructed pelves to compare their stability under the axial loading in the gradient from 0 to 500 N.Results The perpendicular distance from ischial tuberosity to median sagittal plane and coronal plane through auricular surface center were (4.52±0.48)ca and(3.3 1±0.57)cm respectively.The average distance from ischial tuberosity to ipsilateral facies auricularis and symphysis pubis were(11.75±6.19)cm and(15.72±5.19)cm respectively.The maximum oblique diameter of femoral condyle was situated from postemlateral to anteromedia direction.with mean length of (7.93±0.44)cm.,The maximum oblique diameter of tibial plateau lies on the coronal plane,with average length of(7.19±0.61)cm.The femoral condyle and tibial plateau were mainly occupied by cancellous bone.The average thickness of cancellated bone in femoral condyle and tibial plateau were (6.24:0.22)cm and(5.64±0.18)cm respectively.Biomechanical experiment showed the resisting compression ca pability of reconstructed pelvis Was weaker than that of intact one,but the instant stability of two models was similar.Conclusion It is feasible to reconstruct the ischial tuberosity in situ and pelvic ring with an individual femur or tibia to provide mechanical supporting point in sitting,standing and fitting prosthesis of pa tients after hindquarter amputation and decrease their handicapability degrees.
