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利用CT数据构建3D打印骨组织工程支架材料 被引量:9

3D construction and printing of bone tissue engineering scaffolds based on CT data
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摘要 目的:利用患者的CT数据,应用Mimics软件精细化对骨缺损区建模,确定3D打印技术在精细化构建组织工程骨方面的可行性,摸索应用Mimics软件构建组织工程支架材料的技术要点。方法:采集患者颌骨缺损区CT数据,利用阈值分割与区域增长相结合的方法分割图像,通过布尔运算获得目标蒙罩后进行三维重建,结合计算机辅助设计来构建个性化、具有内部结构的骨组织工程支架三维数字模型,并以聚乳酸为原材料借助3D打印技术制备支架材料。结果:利用Mimics软件成功地构建出了骨缺损区的数字化三维模型。构建的支架材料模型与患者骨缺损区形态匹配、具有一定内部形态和结构,模型可通过STL(stereo lithography,光固化立体造型术)标准格式导出,格式通用。结论 :基于CT扫描数据,利用Mimics软件及计算机辅助设计,可以高效、便捷地构建骨缺损区支架材料的数字化三维模型。 Objective To study 3D construction and printing of bone tissue engineering scaffolds by bone defect modeling on Mimics software based on CT data. Methods CT data of jaw bone defect from patients were acquired and the images were segmented using threshold segmentation combined with region growing.The three dimensional model was reconstructed by Boolean operation. The individual 3D digital model was reconstructed with internal structure by combining with computer; preparing poly-lactic acid scaffold in virtue of 3D technology. Results Using the Mimics software, we successfully constructed a 3D digital reconstruction model of bone defect based on CT data. The constructed scaffold model with certain internal form and structure was matched with the bone defect of patients, and the constructed model was exported onto STL standard format,which may be in common use. Conclusion The 3D digital model of bone defect scaffolds may effectively be reconstructed based on the CT data using Mimics software and computer aided design.
出处 《实用医学杂志》 CAS 北大核心 2016年第14期2319-2322,共4页 The Journal of Practical Medicine
基金 吉林省教育厅"十二五"科学技术研究项目(编号:2015530)
关键词 支架材料 3D打印 三维重建 Scaffold 3D-printing Three dimensional reconstruction
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参考文献9

  • 1EBERT LC, THALI MJ, ROSS S. Getting in touch--3D printing in forensic imaging [ J ]. Forensic Sci Int, 2011,211 ( 1 - 13 ) : e l- e6.
  • 2MARTINS PTPG. 5D Reconstruction and visualization of femur bone structures [J]. The Romanian Review Precision Mechanics, Optics & Mechatronics, 2012(41 ) : 51-56.
  • 3CHANG BS, LEE CK, HONG KS, et al. Osteoconduction at porous hydroxyapatite with various pore configurations [J]. Biomaterials, 2000,21 (12) : 1291-1298.
  • 4王韵晴,卢婷利,赵雯,惠倩倩,孔丹凤,陈涛.骨组织工程支架材料的研究进展[J].材料导报,2011,25(3):125-131. 被引量:8
  • 5LIPOWIECKI M, RYVOLOVA M, TOTFOSI A, et al. Permeability of rapid prototyped artificial bone scaffold structures [J]. J Biomed Mater Res A, 2014,102( 11 ) :4127-4135.
  • 6HUOTILAINEN E, JAANIMETS R, VALASEK J, et al. Inaccuracies in additive manufactured medical skull models caused by the DICOM to STL conversion process [J]. J Craniomaxillofac Surg, 2014,42 (5) : e259-e265.
  • 7李久权,王平,王永强.CT图像分割几种算法[J].微计算机信息,2006,22(02S):240-242. 被引量:29
  • 8MAHMOUD S, ELDEIB A, SAMY S. The design of 3D scaffold for tissue engineering using automated scaffold design algorithm [J]. Australas Phys Eng Sci Med, 2015,38(2) : 223-228.
  • 9SUN F, ZHOU H, LEE J. Various preparation methods of highly porous hydroxyapatite/polymer nanoscale bioeomposites for bone regeneration [ J ]. Acta Biomater, 2011,7 ( 11 ) : 3813-3828.

二级参考文献72

  • 1和峰,刘昌胜.骨修复用生物玻璃研究进展[J].玻璃与搪瓷,2004,32(4):54-58. 被引量:14
  • 2周龙.基于数学形态学的储粮害虫图像边缘检测算法研究[J].微计算机信息,2005,21(3):224-225. 被引量:31
  • 3刘刚,胡蕴玉,赵建宁,吴苏稼,周光新.Ⅰ型胶原促进骨髓基质干细胞粘附的细胞机制[J].中华创伤骨科杂志,2006,8(6):549-552. 被引量:14
  • 4潘海涛,郑启新,郭晓东,刘勇,宋玉林.Ⅰ型胶原在PLGA-[ASP-PEG]表面修饰对兔骨髓基质干细胞生物力学的影响[J].中华创伤骨科杂志,2006,8(10):938-943. 被引量:11
  • 5Stevens Molly M. Biomaterials for bone tissue engineering [J].Mater Today,2008,11(5) ..18.
  • 6Bran Gregor M, Stern-Straeter Jens, Hormann Karl, et al. Apoptosis in bone for tissue engineering[J]. Arch Med Res, 2008,39(5):468.
  • 7Cancedda R, Giannoni P, Mastrogiacomo M. A tissue engineering approach to bone repair in large animal models and in clinical practice[J]. Biomaterials, 2007,28(29) : 4241.
  • 8Sornma P, Pettersson S, Ness C, et al. Engineering three- dimensional cartilage- and bone-like tissues using human dermal fibroblasts and macroporous gelatine microearriers [J]. J Plast Reconstr Aesthet Surg,2010,63(6):1037.
  • 9Fernandes A M, Fernandes T G, Diogo M M, et al. Mouse embryonic stern cell expansion in a microcarrier-based stirred culture system[J]. J Biotechnol, 2007,132 (2): 228.
  • 10Huss F R, Junker J P, Johnson H, et al. Macroporous gelatine spheres as culture substrate, transplantation vehicle, and biodegradable scaffold for guided regeneration of soft tissues. In vivo study in nude mice[J]. J Plast Reconstr Aesthet Surg, 2007,60(5) : 545.

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