中华创伤骨科杂志
中華創傷骨科雜誌
중화창상골과잡지
CHINESE JOURNAL OF ORTHOPAEDIC TRAUMA
2013年
11期
990-993
,共4页
梁金龙%陆声%高心健%张建雷%杨洪文%李英华%孙俊%陆地
樑金龍%陸聲%高心健%張建雷%楊洪文%李英華%孫俊%陸地
량금룡%륙성%고심건%장건뢰%양홍문%리영화%손준%륙지
髋臼%成像,三维%外科手术,计算机辅助%关节成形术,置换,髋
髖臼%成像,三維%外科手術,計算機輔助%關節成形術,置換,髖
관구%성상,삼유%외과수술,계산궤보조%관절성형술,치환,관
Acetabulum%Imaging,three-dimensional%Surgery,computer-assisted%Arthroplasty,replacement,hip
目的 在计算机辅助下对髋臼方位进行三维可视化测量,以期为人工全髋关节置换术提供精确的个体化术前规划. 方法 选取10具无明显骨质缺损的成年尸体标本,将标本CT扫描后的.dicom格式原始数据导入Mimics10.01软件,重建出骨盆三维模型,然后根据三维模型在冠状面、水平面上的投影测量髋臼的外展角和前倾角.通过Imageware 13.0软件计算髋臼旋转中心,根据髋臼外展角和前倾角的测量值计算出髋臼旋转轴线,再沿该轴线植入虚拟的髋臼杯假体,分别测量虚拟髋臼杯假体的外展角、前倾角,对比分析植入假体前、后的外展角和前倾角. 结果 根据测量所得的髋臼旋转中心位于髋臼中央,所确定的虚拟髋臼旋转轴线通过髋臼开口面的中心,且与髋臼开口所在的平面垂直.10具标本髋臼三维模型的冠状面投影面上髋臼外展角平均为49.5°±4.7°,虚拟髋臼杯投影面上外展角平均为49.9°±4.1°,二者比较差异无统计学意义(t=0.326,P=0.753);10具标本髋臼三维模型的水平面投影面上髋臼前倾角平均为17.7°±3.1°,虚拟髋臼杯投影面上前倾角平均为18.3°±3.5°,二者比较差异无统计学意义(t=0.547,P=0.600). 结论 计算机辅助下三维可视化测量髋臼方位比较准确、可靠,为人工全髋关节置换术的个体化术前规划提供了新的测量方法和研究手段.
目的 在計算機輔助下對髖臼方位進行三維可視化測量,以期為人工全髖關節置換術提供精確的箇體化術前規劃. 方法 選取10具無明顯骨質缺損的成年尸體標本,將標本CT掃描後的.dicom格式原始數據導入Mimics10.01軟件,重建齣骨盆三維模型,然後根據三維模型在冠狀麵、水平麵上的投影測量髖臼的外展角和前傾角.通過Imageware 13.0軟件計算髖臼鏇轉中心,根據髖臼外展角和前傾角的測量值計算齣髖臼鏇轉軸線,再沿該軸線植入虛擬的髖臼杯假體,分彆測量虛擬髖臼杯假體的外展角、前傾角,對比分析植入假體前、後的外展角和前傾角. 結果 根據測量所得的髖臼鏇轉中心位于髖臼中央,所確定的虛擬髖臼鏇轉軸線通過髖臼開口麵的中心,且與髖臼開口所在的平麵垂直.10具標本髖臼三維模型的冠狀麵投影麵上髖臼外展角平均為49.5°±4.7°,虛擬髖臼杯投影麵上外展角平均為49.9°±4.1°,二者比較差異無統計學意義(t=0.326,P=0.753);10具標本髖臼三維模型的水平麵投影麵上髖臼前傾角平均為17.7°±3.1°,虛擬髖臼杯投影麵上前傾角平均為18.3°±3.5°,二者比較差異無統計學意義(t=0.547,P=0.600). 結論 計算機輔助下三維可視化測量髖臼方位比較準確、可靠,為人工全髖關節置換術的箇體化術前規劃提供瞭新的測量方法和研究手段.
목적 재계산궤보조하대관구방위진행삼유가시화측량,이기위인공전관관절치환술제공정학적개체화술전규화. 방법 선취10구무명현골질결손적성년시체표본,장표본CT소묘후적.dicom격식원시수거도입Mimics10.01연건,중건출골분삼유모형,연후근거삼유모형재관상면、수평면상적투영측량관구적외전각화전경각.통과Imageware 13.0연건계산관구선전중심,근거관구외전각화전경각적측량치계산출관구선전축선,재연해축선식입허의적관구배가체,분별측량허의관구배가체적외전각、전경각,대비분석식입가체전、후적외전각화전경각. 결과 근거측량소득적관구선전중심위우관구중앙,소학정적허의관구선전축선통과관구개구면적중심,차여관구개구소재적평면수직.10구표본관구삼유모형적관상면투영면상관구외전각평균위49.5°±4.7°,허의관구배투영면상외전각평균위49.9°±4.1°,이자비교차이무통계학의의(t=0.326,P=0.753);10구표본관구삼유모형적수평면투영면상관구전경각평균위17.7°±3.1°,허의관구배투영면상전경각평균위18.3°±3.5°,이자비교차이무통계학의의(t=0.547,P=0.600). 결론 계산궤보조하삼유가시화측량관구방위비교준학、가고,위인공전관관절치환술적개체화술전규화제공료신적측량방법화연구수단.
Objective To study acetabular orientation through computer-aided 3D visualization which can facilitate individualized preoperative planning in total hip arthroplasty.Methods Original data at.dicom format were obtained from CT scans of 10 adult cadaveric specimens without bone defects before they were transferred into Mimics10.01 software to reconstruct 3D models of the pelvis.First,we calculated the hip joint center by the acetabular point cloud using Imageware13.0 software.Then,we measured the acetabular abduction and anteversion in the coronal and sagittal plans using 3-matic 6.1 software.Consequently,the virtual acetabulum rotation axis was obtained based on the 2 angles.Finally,a virtual acetabular cup prosthesis was implanted into the acetabular model along the virtual axis.Statistical analysis was performed after measurement of the abduction and anteversion of the virtual cup.Results The hip joint center was located in the center of the acetabulum,and the virtual acetabulum rotation axis was perpendicular to the acetabular opening plane.There was no significant difference between the abduction of the virtual cup (49.9° ±4.1°) and the actual abduction measured in the 10 cadaveric specimens (49.5°± 4.7°) (t =0.326,P =0.753).There was no significant difference either between the anteversion of the virtual cup (18.3° ± 3.5 °) and the actual anteversion measured in the 10 cadaveric specimens (17.7°±3.1°) (t=0.547,P=0.600).Conclusion Since the acetabular orientation through computer-aided 3D visualization is accurate and reliable,it may serve as a new means of measurement and research for individualized preoperative planning in total hip arthroplasty.
