参考文献/References:
[1] WANG C,LAI J,LI K,et al.Cryogenic 3D printing of dual-delivery scaffolds for improved bone regeneration with enhanced vascularization[J].Bioact Mater,2020,6(1):137-145.
[2] KHAJAVI S H,PARTANEN J,HOLMSTROM J.Additive manufacturing in the spare parts supply chain[J].Comput Ind,2014,65(1):50-63.
[3] KERMAVNAR T,SHANNON A,O'SULLIVAN K J,et al.Three-dimensional printing of medical devices used di-rectly to treat patients:a systematic review[J].3D Print Addit Manuf,2021,8(6):366-408.
[4] LONG C,LIU J H,CHAI X P,et al.A novel 3D-printed device for precise percutaneous placement of cannulated com-pression screws in human femoral neck fractures[J/OL].Biomed Res Int,2021,2021:1308805[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/34222465/.
[5] FALDINI C,MAZZOTTI A,BELVEDERE C,et al.A new ligament-compatible patient-specific 3D-printed implant and instrumentation for total ankle arthroplasty:from biomechanical studies to clinical cases[J].J Orthop Traumatol,2020,21(1):16.
[6] MARENGO N,MATSUKAWA K,MONTICELLI M,et al.Cortical bone trajectory screw placement accuracy with a patient-matched 3-dimensional printed guide in lumbar spinal surgery:a clinical study[J].World Neurosurg,2019,130:e98-e104.
[7] SIU T L,ROGERS J M,LIN K,et al.Custom-made titanium 3-dimensional printed interbody cages for treatment of osteoporotic fracture–related spinal deformity[J].World Neurosurg,2018,111:1-5.
[8] WANG X,LIU S,PENG J,et al.Development of a novel customized cutting and rotating template for Bernese periacetabular osteotomy[J].J Orthop Surg Res,2019,14(1):217.
[9] SULTAN A A,MAHMOOD B,SAMUEL L T,et al.Cementless 3D printed highly porous titanium-coated baseplate total knee arthroplasty:survivorship and outcomes at 2-year minimum follow-up[J].J Knee Surg,2020,33(3):279-283.
[10] PATEL H,KINMON K.Revision of failed total ankle replacement with a custom 3-dimensional printed talar component with a titanium truss cage:a case presentation[J].J Foot Ankle Surg,2019,58(5):1006-1009.
[11] SUN M L,ZHANG Y,PENG Y,et al.Accuracy of a novel 3D-printed patient-specific intramedullary guide to control femoral component rotation in total knee arthroplasty[J].Orthop Surg,2020,12(2):429-441.
[12] YANG H S,PARK J Y.3D printer application for endoscope-assisted spine surgery instrument development:from prototype instruments to patient-specific 3D models[J].Yonsei Med J,2020,61(1):94-99.
[13] PARK J W,SHIN Y C,KANG H G,et al.In vivo analysis of post-joint-preserving surgery fracture of 3D-printed Ti-6Al-4V implant to treat bone cancer[J].Bio-Des Manuf,2021,4(4):879-888.
[14] JOVICIC M ,VULETIC F,RIBICIC T,et al.Implementation of the three-dimensional printing technology in treatment of bone tumours:a case series[J].Int Orthop,2021,45(4):1079-1085.
[15] WEI F,LI Z,LIU Z,et al.Upper cervical spine reconstruction using customized 3D-printed vertebral body in 9 patients with primary tumors involving C2[J].Ann Transl Med,2020,8(6):332.
[16] PATEL V,KOVALSKY D,MEYER S C,et al.Prospective trial of sacroiliac joint fusion using 3D-printed triangular titanium implants[J].Med Devices(Auckl),2020,13:173-182.
[17] GARG B,GUPTA M,SINGH M,et al.Outcome and safety analysis of 3D-printed patient-specific pedicle screw jigs for complex spinal deformities:a comparative study[J].Spine J,2019,19(1):56-64.
[18] WAN S X,MENG F B,ZHANG J,et al.Experimental study and preliminary clinical application of mini-invasive percutaneous internal screw fixation for scaphoid fracture under the guidance of a 3D-printed guide plate[J].Curr Med Sci,2019,39(6):990-996.
[19] SHE R F,ZHANG Y,ZHANG B,et al.An individualized intra-articular stabilization device designed based on 3D printing technology for traumatic instability of the ulnohumeral joint[J/OL].Biomed Res Int,2020,2020:3056395[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/33294437/.
[20] LANNON M,ALGIRD A,ALSUNBUL W,et al.Cost-effective cranioplasty utilizing 3D printed molds:a canadian single-center experience[J].Can J Neurol Sci,2022,49(2):196-202.
[21] MANFREDI L,CAPOCCIA E,CIUTI G,et al.A soft pneumatic inchworm double balloon(spid)for colonoscopy[J].Sci Rep,2019,9(1):11109.
[22] DELASOBERA B E,PLACE R,HOWELL J,et al.Serious infectious complications related to extremity cast/splint placement in children[J].J Emerg Med,2011,41(1):47-50.
[23] CHA Y H,LEE K H,RYU H J,et al.Ankle-foot orthosis made by 3D printing technique and automated design software[J/OL].Appl Bionics Biomech,2017,2017:9610468[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/28827977/.
[24] BARRIOS-MURIEL J,ROMERO-SÁNCHEZ F,ALONSO-SÁNCHEZ F J,et al.Advances in orthotic and prosthetic manufacturing:a technology review[J].Materials(Basel),2020,13(2):295.
[25] HALE L,LINLEY E,KALASKAR D M.A digital workflow for design and fabrication of bespoke orthoses using 3D scanning and 3D printing,a patient-based case study[J].Sci Rep,2020,10(1):7028.
[26] 赵庆红,郭俊卿,高琰,等.3D打印技术在医疗领域的应用价值与展望[J].机械设计与制造工程,2018,47(6):1-5.
[27] ANGELINI A,KOTRYCH D,TROVARELLI G,et al.Analysis of principles inspiring design of three-dimensional-printed custom-made prostheses in two referral centres[J].Int Orthop,2020,44(5):829-837.
[28] TATARA A M,KOONS G L,WATSON E,et al.Biomaterials-aided mandibular reconstruction using in vivo bioreactors[J].Proc Natl Acad Sci U S A,2019,116(14):6954-6963.
[29] YAO Y,MO Z,WU G,et al.A personalized 3D-printed plate for tibiotalocalcaneal arthrodesis:design,fabrication,biomechanical evaluation and postoperative assessment[J/OL].Comput Biol Med,2021,133:104368[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/33864971/.
[30] SULTAN S,MATHEW A P.3D printed porous cellulose nanocomposite hydrogel scaffolds[J/OL].J Vis Exp,2019(146)[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/31081812/.
[31] HUANG B,HU R,XUE Z,et al.Continuous liquid interface production of alginate/polyacrylamide hydrogels with supramolecular shape memory properties[J/OL].Carbohydr Polym,2020,231:115736[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/31888822/.
[32] LI S,WANG K,HU Q,et al.Direct-write and sacrifice-based techniques for vasculatures[J/OL].Mater Sci Eng C Mater Biol Appl,2019,104:109936[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/31500055/.
[33] OVSIANIKOV A,KHADEMHOSSEINI A,MIRONOV V.The synergy of scaffold-based and scaffold-free tissue engineering strategies[J].Trends Biotechnol,2018,36(4):348-357.
[34] GONZALEZ-FERNANDEZ T,RATHAN S,HOBBS C,et al.Pore-forming bioinks to enable spatio-temporally defined gene delivery in bioprinted tissues[J].J Control Release,2019,301:13-27.
[35] SCHWARTZ R,MALPICA M,THOMPSON G L,et al.Cell encapsulation in gelatin bioink impairs 3D bioprinting resolution[J/OL].J Mech Behav Biomed Mater,2020,103:103524[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/31785543/.
[36] KOFFLER J,ZHU W,QU X,et al.Biomimetic 3D-printed scaffolds for spinal cord injury repair[J].Nat Med,2019,25(2):263-269.
[37] HU X,WANG Y,TAN Y,et al.A difunctional regeneration scaffold for knee repair based on aptamer-directed cell recruitment[J/OL].Adv Mater,2017,29(15)[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/28185322/.
[38] CHEN P,ZHENG L,WANG Y,et al.Desktop-stereolithography 3D printing of a radially oriented extracellular matrix/mesenchymal stem cell exosome bioink for osteochondral defect regeneration[J].Theranostics,2019,9(9):2439-2459.
[39] SHI W,SUN M,HU X,et al.Structurally and functionally optimized silk-fibroin-gelatin scaffold using 3d printing to repair cartilage injury in vitro and in vivo[J/OL].Adv Mater,2017,29(29):1701089[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/28585319/.
[40] ZHENG Y X,YU D F,ZHAO J G,et al.3D printout models vs.3D-rendered images:which is better for preoperative planning?[J].J Surg Educ,2016,73(3):518-523.
[41] MORGAN C,KHATRI C,HANNA S A,et al.Use of three-dimensional printing in preoperative planning in orthopaedic trauma surgery:a systematic review and meta-analysis[J].World J Orthop,2020,11(1):57-67.
[42] SILBERSTEIN J L,MADDOX M M,DORSEY P,et al.Physical models of renal malignancies using standard cross-sectional imaging and 3-dimensional printers:a pilot study[J].Urology,2014,84(2):268-272.
[43] 储传敏,刘溪,潘秀武,等.3D打印联合术中超声在腔镜下治疗完全内生型肾肿瘤中的应用(附15例报告)[J].第二军医大学学报,2017,38(8):1065-1070.
[44] PARK L,PRICE-WILLIAMS S,JALALI A,et al.Increasing access to medical training with three-dimensional printing:creation of an endotracheal intubation model[J].JMIR Med Educ,2019,5(1):e12626.
[45] GALLAGHER P O,BISHOP N,DUBROWSKI A.Investigating the perceived efficacy of a silicone suturing task trainer using input from novice medical trainees[J].Cureus,2020,12(1):e6612.
[46] PARKHOMENKO E,YOON R,OKHUNOV Z,et al.Multi-institutional evaluation of producing and testing a novel 3D-printed laparoscopic trainer[J].Urology,2019,124:297-301.
[47] ATALAY H A,ÜLKER V,ALKAN I,et al.Impact of three-dimensional printed pelvicaliceal system models on residents'understanding of pelvicaliceal system anatomy before percutaneous nephrolithotripsy surgery:a pilot study[J].J Endourol,2016,30(10):1132-1137.
[48] ATALAY H A,CANAT H L,ÜLKER V,et al.Impact of personalized three-dimensional-3D-printed pelvicalyceal system models on patient information in percutaneous nephrolithotripsy surgery:a pilot study[J].Int Braz J Urol,2017,43(3):470-475.
[49] YANG L,SHANG X W,FAN J N,et al.Application of 3D printing in the surgical planning of trimalleolar fracture and doctor-patient communication[J/OL].Biomed Res Int,2016,2016:2482086[2022-04-09].https://pubmed.ncbi.nlm.nih.gov/27446944/.
[50] HORST A,MCDONALD F.Uncertain but not unregulated:medical product regulation in the light of three-dimensional printed medical products[J].3D Print Addit Manuf,2020,7(5):248-257.
(收稿日期:2022-04-10 本文编辑:郭毅曼)
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