3D打印技术在医学领域中的应用进展
摘要
3D打印作为一项革命性技术出现,有望将研究转化为医学治疗。3D打印技术在医学领域中发挥着重要作用,如用于术前规划来提高手术的效率、用于医学教育和培训的解剖模型、为特殊病例定制植入物。当前的文献综述旨在论述3D打印技术在医学领域(特别是骨科领域)中的不足、优势及对未来的展望。
引文
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[18]Hennessy DW,Anderson ME,Lozano-Calderón SA.Complex pelvicreconstruction using patient-specific instrumentation and a 3D-printed custom implant following tumor resection[J].J Hip Surg,2018,2:61-67.
[19]Wang B,Hao Y,Pu F,et al.Computer-aided designed,three dimensionalprinted hemipelvic prosthesis for peri-acetabularmal ignant bone tumour[J].Int Or thop,2018,42(3):687-694.
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[3]Melgoza EL,Vallicrosa G,SerenóL,et al.Rapid tooling using 3D printing system for manufacturing of customized tracheal stent[J].Rapid Prototyp J,2014,20(1):2-12.
[4]De Raedt S,Mechlenburg I,Stilling M,et al.Reliability of computer-assisted periacetabular osteotomy using a minimally invasive approach[J].Int J Comput Assist Radiol Surg,2018,13(12):2021-2028.
[5]Niikura T,Sugimoto M,Lee SY,et al.Tactile surgical navigation system for complex acetabular fracture surgery[J].Orthopedics,2014,37(4):237-242.
[6]Gao T,Rivlin M,Abraham JA.Three-dimensional printing technology and role for custom implants in orthopedic oncology[J].Tech Orthop,2018,33(3):166-174.
[7]Manganaro MS,Morag Y,Weadock WJ,et al.Creating three-dimensiona printed models of acetabular fractures for use as educational tools[J].Radiogra phics,2017,37(3):871-880.
[8]Guarino J,Tennyson S,McCain G,et al.Rapid prototyping technology for surgeries of the pediatric spine and pelvis:benefits analysis[J].J Pediatr Orthop,2007,27(8):955-60.
[9]Bizzotto N,Sandri A,Regis D,et al.Three-dimensional printing of bone fractures:a new tangible realistic way for preoperative planning and education[J].Surg Inno,2015,22(5):548-551.
[10]Starosolski ZA,Kan JH,Rosenfeld SD,et al.Application of 3-D printing(rapid prototyping)for creating physical models of pediatric orthopedic disorders[J].Pediatr Radiol,2014,44(2):216-221.
[11]Niikura T,Sugimoto M,Lee SY,et al.Tactile surgical navigation system for complex acetabular fracture surgery[J].Orthopedics,2014,37(4):237-242.
[12]Sulaiman A,Boussel L,Taconnet F,et al.In vitro non-rigid life-size mode of aortic arch aneurysm for endovascular prosthesis assessment[J].Eur JCardiothorac Surg,2008,33(1):53-57.
[13]Thobald S.Custom surgery creates normal hips for 30-year-old[J].Sharing Mayo Clinic,2011,27.
[14]Mai JG,Gu C,Lin XZ,et al.Application of three-dimensiona printing personalized acetabular wing-plate intreatment of complex acetabular fractures via lateral-rectus approach[J].Zhonghua Wai Ke Za Zhi,2017,55(3):172-178.
[15]Stevens B,Yang Y,Mohandas A,et al.A review of materials,fabrication methods,and strategies used to enhance bone regeneration in engineered bone tissues[J].J Biomed Mater Res B Appl Biomater,2008,85(2):573-582.
[16]Yang J,Guo JL,Mikos AG,et al.Material processing and design of biodegradable met al matrix composites for biomedical applications[J].Ann Biomed Eng,2018,46(9):1229-1240.
[17]Mavili ME,Canter HI,Saglam-Aydinatay B,et al.Use of three-dimensional medical modeling methods for precise planning of orthognathic surgery[J].JCraniofac Surg,2007,18(4):740-747.
[18]Hennessy DW,Anderson ME,Lozano-Calderón SA.Complex pelvicreconstruction using patient-specific instrumentation and a 3D-printed custom implant following tumor resection[J].J Hip Surg,2018,2:61-67.
[19]Wang B,Hao Y,Pu F,et al.Computer-aided designed,three dimensionalprinted hemipelvic prosthesis for peri-acetabularmal ignant bone tumour[J].Int Or thop,2018,42(3):687-694.