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成人髋臼骨计算机三维重建及形态学测量 被引量:22

Computerized three-dimentional reconstruction and morphologic measurement of adult acetabulum bone structure
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摘要 目的通过三维重建,对髋臼的形态学进行定量研究。方法选取40例成人髋臼标本,通过CT扫描、图像边界处理和定标,利用CAD软件直接拟合出髋臼骨形态,并应用Unigrapics软件集成的工具条对重建髋臼进行形态学的测量。结果髋臼拟合半径(R)为(30.48±2.05)mm;髋臼内侧壁最小厚度(L)为(2.35±1.13)mm;髋臼卵圆窝(Harris窝)深度(D)为(5.71±1.21)mm;横断面髋臼开口缘最大宽度(W)为(63.06±3.75)mm。统计显示,R值与W值相关,但R值、L值、D值之间并不相关。结论正常成人髋臼窝半径(R)与横断面髋臼开口缘最大宽度(W)之间有着明显相关性,髋臼拟合半径(R)、髋臼内侧壁最小厚度(L)、髋臼卵圆窝深度(D)之间并无相关。 Objective To set up three-dimentional reconstruction of acetabulum bone structure from CT scanned image in computer with sofeware of CAD and study quantitatively the morphologic features of the acetabulum. Methods Through the process of CT scanning, and edge recording of the CT image, we made use of CAD sofeware and Unigraphics sofeware to reconstruct the 40 normal acetabulum bones for the radius of acetabulum ( R ), minimum thickness of medial wall of acetabulum ( L ) , depth of Harris fossa ( D ) and maximum opening rim width in transectional plane (W). Results The average R was 30. 48±2. 05mm. The average L was 2. 35±1.13mm. The average D was 5.71±1.21mm. The average W was 63.06±2.05mm. There was a linear relationship between the R and the W, but no correlation between the R,the L and the D. Conclusions There was a significance linear relationship between the R and the W in normal adult acetabulum. However no correlation between the R,the L and the D.
作者 董建东 王友 朱振安 顾冬云 薛文东 戴尅戎
机构地区 上海交通大学医学院附属第九人民医院骨科
出处 《中华外科杂志》 CAS CSCD 北大核心 2005年第24期1583-1586,共4页 Chinese Journal of Surgery
基金 上海市教育委员会高等学校科技基金(2000B14)
关键词 髋臼 成像 三维 形态学 人体测量术 Acetabulum Imaging, Three-Dimensional Morphology Anthropometry
分类号 R-39 [医药卫生]
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参考文献10

  • 1薛文东,王友.髋臼CT图像轮廓跟踪方法[J].医用生物力学,2003,18(2):85-86. 被引量:4
  • 2王友,薛文东,董建东,史定伟.基于CAD软件的髋臼骨形态三维结构重建[J].医用生物力学,2005,20(1):42-44. 被引量:3
  • 3Viceconti M,Zannoni C,Testi D,et al.CT data sets surface extraction for biomechanical modeling of long bones.Comput Methods Programs Biomed,1999,59:159-166.
  • 4Sugano N,Noble PC,Kamaric E.Predicting the position of the femoral head center.J Arthroplasty,1999,14:102-107.
  • 5Maruyama M,Feinberg JR,Capello WN,et al.The Frank Stinchfield Award:Morphologic features of the acetabulum and femur:anteversion angle and implant positioning.Clin Orthop Relat Res,2001,393:52-65.
  • 6Thompson MS,Dawson T,Kuiper JH,et al.Acetabular morphology and resurfacing design.J Biomech,2000,33:1645-1653.
  • 7Von Eisenhart-Rothe R,Eckstein F,MuK ller-Gerbl M,et al.Direct comparison of contact areas,contact stress and subchondral mineralization in human hip joint specimens.Anat Embryol (Berl),1997,195:279-288.
  • 8Eckstein F,von Eisenhart-Rothe R,Landgraf J,et al.Quantitative analysis of incongruity,contact areas and cartilage thickness in the human hip joint.Acta Anat (Basel).1997,158:192-204.
  • 9顾冬云,戴尅戎,胡鑫,习俊通.二种骨性髋臼关节面三维几何形态模型的对照与分析[J].医用生物力学,2003,18(2):81-84. 被引量:5
  • 10顾冬云,戴尅戎,王友,胡鑫,习俊通.髋臼骨关节面形态特征的研究[J].生物医学工程学杂志,2003,20(4):618-621. 被引量:7

二级参考文献25

  • 1[1]Greenwald AS, O'Connor JJ . The transmission of load through the human hip joint. J Biomech, 1971; 4∶507
  • 2[2]Eckstein F, Von Eisenhart-Rothe R., Landgraf J, et al. Quantitative analysis of incongruity, contact areas and cartilage thickness in the human hip joint. Acta Anatomica, 1997; 158∶192
  • 3[3]Eiichi Genda, Norimasa Iwasaki, Guoan Li, et al. Normal hip joint contact pressure distribution in single-leg standing-effect of gender and anatomic parameters. J Biomech,2001; 34∶895
  • 4[4]Hefti F. Spherical assessment of the hip on standard AP radiographs: a simple method for the measurement of the contact area between acetabulum and femoral head and of acetabular orientation. J Pediatr Orthop, 1995; 15(6)∶797
  • 5[5]Schwartz JT Jr, Engh CA, Forte MR, et al. Evaluation of initial surface apposition in porous-coated acetabular components. Clin Orthop, 1993; 8(293)∶174
  • 6[6]Thompson MS, Dawson T, Kuiper JH, et al. Acetabular morphology and resurface design. J Biomech, 2000; 33(12)∶1645
  • 7[7]Rapperport DJ, Carter DR, Schurman DJ. Contact finite element stress analysis of the hip joint. J Orthop Res, 1985; 3(4)∶435
  • 8[8]Alberto Leardini, Aurelio Cappozzo, Favio Catani, et al. Validation of a functional method for the estimation of hip joint center location. J Biomech,1999;32(1)∶99
  • 9[9]Alrashdan A, Moravalli S, Fallahi B. Automatic segmentation of digitized data for reverse engineering applications. IIE Transaction, 2000;32∶59
  • 10Genda E, Iwasaki N, Li G, et al. Normal hip joint contact pressure distribution in single - leg standing - effect of gender and anatomic Darameters[J]. J Biomech.2001. 34:895 - 905.

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中华外科杂志
2005年 第24期

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