[1]Amis AA.Biomechanics of high tibial osteotomy[J].Knee Surg Sports Traumatol Arthrosc,2013,21(1):197-205.
[2]Chae DJ,Shetty GM,Wang KH,et al.Early complications of medial opening wedge high tibial osteotomy using autologous tricortical iliac bone graft and T-plate fixation[J].Knee,2011,18(4):278-284.
[3]Abdullah KA,Reed W.3D printing in medical imaging and healthcare services[J].J Med Radiat Sci,2018,65(3):237-239.
[4]Marro A,Bandukwala T,Mak W.Three-Dimensional Printing and Medical Imaging:A Review of the Methods and Applications[J].Curr Probl Diagn Radiol,2016,45(1):2-9.
[5]Liaw CY,Guvendiren M.Current and emerging applications of 3D printing in medicine[J].Biofabrication,2017,9(2):024102.
[6]Anderson PA.Clinical Applications of 3D Printing[J].Spine (Phila Pa 1976),2017,42(7):30-31.
[7]Victor J,Premanathan A.Virtual 3D planning and patient specific surgical guides for osteotomies around the knee:A feasibility and proof-of-concept study[J].Bone Joint J,2013,95(11):153-158.
[8]Jones GG,Jaere M,Clarke S,et al.3D printing and high tibial osteotomy[J].EFORT Open Rev,2018,3(5):254-259.
[9]Pérez Maanes R,Burró JA,Manaute JR,et al.3D surgical printing cutting guides for open-wedge high tibial osteotomy:Do it yourself[J].J Knee Surg,2016,29(8):690-695.
[10]Kwun JD,Kim HJ,Park J,et al.Open wedge high tibial osteotomy using three-dimensional printed models:Experimental analysis using porcine bone[J].Knee,2017,24(1):16-22.
[11]Kim HJ,Park J,Shin JY,et al.More accurate correction can be obtained using a three-dimensional printed model in open-wedge high tibial osteotomy[J].Knee Surg Sports Traumatol Arthrosc,2018,26(11):3452-3458.
[12]陈金国,陈国仙,林宗锦,等.个性化3D打印术前模拟与传统截骨在高位胫骨截骨中的应用与比较[J].中国组织工程研究,2020,24(12):1881-1885.
[13]Lin SC,Chang SS,Chan YS,et al.How do osteotomy and distraction affect distraction angles of opening wedge high tibial osteotomy?[J].Clin Biomech(Bristol,Avon),2020(80):105154.
[14]Mertz L.Dream it,design it,print it in 3D:What can 3D printing do for you?[J].IEEE Pulse,2013,4(6):15-21.
[15]Chaouche S,Jacquet C,Fabre-Aubrespy M,et al.Patient-specific cutting guides for open-wedge high tibial osteotomy:Safety and accuracy analysis of a hundred patients continuous cohort[J].Int Orthop,2019,43(12):2757-2765.
[16]Munier M,Donnez M,Ollivier M,et al.Can three-dimensional patient-specific cutting guides be used to achieve optimal correction for high tibial osteotomy?Pilot study[J].Orthop Traumatol Surg Res,2017,103(2):245-250.
[17]Fucentese SF,Meier P,Jud L,et al.Accuracy of 3D-planned patient specific instrumentation in high tibial open wedge valgisation osteotomy[J].J Exp Orthop,2020,7(1):7-14.
[18]Shin YS,Kim KH,Sim HB,et al.Comparison between two angular stable locking plates for medial opening-wedge high tibial osteotomy:Decisive wedge locking plate versus TomoFix[J].J Orthop Sci,2016,21(6):791-797.
[19]Yang JC,Chen CF,Luo CA,et al.Clinical experience using a 3D-printed patient-specific instrument for medial opening wedge high tibial osteotomy[J].Biomed Res Int,2018(2018):9246529.
[20]Jacquet C,Sharma A,Fabre M,et al.Patient-specific high-tibial osteotomys’ cutting-guides’ decrease operating time and the number of fluoroscopic images taken after a brief learning curve[J].Knee Surg Sports Traumatol Arthrosc,2020,28(9):2854-2862.
[21]Jud L,Fürnstahl P,Vlachopoulos L,et al.Malpositioning of patient-specific instruments within the possible degrees of freedom in high-tibial osteotomy has no considerable influence on mechanical leg axis correction[J].Knee Surg Sports Traumatol Arthrosc,2020,28(5):1356-1364.
[22]刘云涛,张新安,王鹏,等.3D打印技术在胫骨高位截骨治疗膝内翻畸形骨关节炎中的临床应用[J].中华创伤骨科杂志,2019(3):247-253.
[23]高润子,高衡,汪树林,等.3D打印截骨导板在内侧开放楔形胫骨高位截骨术中的应用研究[J].实用骨科杂志,2018,24(4):361-364.
[24]高小康,韩守江,张元华,等.3D打印截骨导板在内侧开放胫骨高位截骨术中的应用[J].中国骨与关节损伤杂志,2020,35(2):137-140.
[25]陈国仙,李国山,林宗锦,等.3D打印技术辅助胫骨高位截骨术治疗膝内翻畸形骨关节炎的疗效观察[J].中国修复重建外科杂志,2016,30(4):407-411.
[26]Spahn G,Hofmann GO,von Engelhardt LV,et al.The impact of a high tibial valgus osteotomy and unicondylar medial arthroplasty on the treatment for knee osteoarthritis:A meta-analysis[J].Knee Surg Sports Traumatol Arthrosc,2013,21(1):96-112.
[27]Robinson PD,McEwan J,Adukia V,et al.Osteoarthritis and arthroplasty of the hip and knee[J].Br J Hosp Med (Lond),2018,79(4):54-59.
[28]Jones GG,Clarke S,Jaere M,et al.Failed high tibial osteotomy:A joint preserving alternative to total knee arthroplasty[J].Orthop Traumatol Surg Res,2019,105(1):85-88.
[29]Choonara YE,du Toit LC,Kumar P,et al.3D-printing and the effect on medical costs:a new era?[J].Expert Rev Pharmacoecon Outcomes Res,2016,16(1):23-32.
[30]Spahn G,Klinger HM,Harth P,et al.Cartilage regeneration after high tibial osteotomy:Results of an arthroscopic study[J].Z Orthop Unfall,2012,150(3):272-279.
[31]刘爱峰,巩树伟.基于“骨正筋柔”理论的保膝治疗[J].中国中西医结合外科杂志,2019,25(6):1076-1078.
[32]Fricain JC,De Olivera H,Devillard R,et al.3D bioprinting in regenerative medicine and tissue engineering[J].Med Sci (Paris),2017,33(1):52-59.
[33]Martelli N,Serrano C,van den Brink H,et al.Advantages and disadvantages of 3-dimensional printing in surgery:A systematic review[J].Surgery,2016,159(6):1485-1500.
[34]Zhou Y.The Application of Ultrasound in 3D Bio-Printing[J].Molecules,2016,21(5):590-615.
[35]Ripley B,Levin D,Kelil T,et al.3D printing from MRI Data:Harnessing strengths and minimizing weaknesses[J].J Magn Reson Imaging,2017,45(3):635-645.
[36]Idaszek J,Costantini M,Karlsen TA,et al.3D bioprinting of hydrogel constructs with cell and material gradients for the regeneration of full-thickness chondral defect using a microfluidic printing head[J].Biofabrication,2019,11(4):044101.
[37]Waran V,Narayanan V,Karuppiah R,et al.Utility of multimaterial 3D printers in creating models with pathological entities to enhance the training experience of neurosurgeons[J].J Neurosurg,2014,120(2):489-492.
[38]Lui YS,Sow WT,Tan LP,et al.4D printing and stimuli-responsive materials in biomedical aspects[J].Acta Biomater,2019(92):19-36.