切换至 "中华医学电子期刊资源库"
高级检索
中华关节外科杂志(电子版)

中华关节外科杂志(电子版) ›› 2025, Vol. 19 ›› Issue (01) : 82 -87. doi: 10.3877/ cma.j.issn.1674-134X.2025.01.012

综述

3D 打印金属内植物在骨科手术中的应用进展
段水岩1, 孙文才2,()   
  1. 1. 161000 齐齐哈尔医学院基础医学院
    2. 161000 齐齐哈尔医学院第三附属医院骨科
  • 收稿日期:2024-09-04 出版日期:2025-02-01
  • 通信作者: 孙文才

Application progress of 3D printed metal implants in orthopedic surgery

Shuiyan Duan1, Wencai Sun2,()   

  1. 1. Basic Medical College, Qiqihar Medical University, Qiqihar 161000, China
    2. Department of Orthopedics, Third Affiliated Hospital of Qiqihar Medical University, Qiqihar 161000,China
  • Received:2024-09-04 Published:2025-02-01
  • Corresponding author: Wencai Sun
全文 ( ) 下载PDF ( ) 导出引用
引用本文:

段水岩, 孙文才. 3D 打印金属内植物在骨科手术中的应用进展[J/OL]. 中华关节外科杂志(电子版), 2025, 19(01): 82-87.

Shuiyan Duan, Wencai Sun. Application progress of 3D printed metal implants in orthopedic surgery[J/OL]. Chinese Journal of Joint Surgery(Electronic Edition), 2025, 19(01): 82-87.

三维(3D)打印技术在国内外逐步应用于骨科临床治疗中,对于完善手术方案,改善医患沟通效果和提高复杂手术疗效产生积极作用;尤其是3D打印金属内植物,在个体化治疗方面取得重要进展,丰富了精准医学的内容。本文通过文献回顾,从3D打印原理、体外制备个体化金属内植物关键内容、以及应用于骨缺损、内固定、关节和脊柱功能重建等方面进行综述,对3D打印技术应用于骨科内植物手术的创新发展进行总结和展望。

关键词: 骨科手术, 金属, 假体与植入物, 打印,三维

Three dimentional (3D) printing technology has been gradually applied in the clinical treatment of orthopedics at home and abroad, which has a positive effect on perfecting the surgical plan,improving the doctor-patient communication effect and improving the efficacy of complex surgery.In particular,3D printed metal implants have made important progress in individualized treatment and enriched the content of precision medicine.Through literature review, this article reviewed the principle of 3D printing, the key content of in vitro preparation of individualized metal implants, and its application in bone defect, internal fixation and joint function reconstruction, and summarizes the innovation and development of 3D printing technology in orthopedic implant surgery.

Key words: Orthopedic procedures, Metals, Prostheses and implants, Printing, three dimensional
[1]
Tong H, Zhang J, Ma J, et al.Perspectives on 3D printed personalized medicines for pediatrics[J/OL].Int J Pharm, 2024,653: 123867.DOI:10.1016/j.ijpharm.2024.123867.
[2]
国家卫生健康委能力建设和继续教育中心《数字骨科技术临床应用能力提升研究课题》专家组, 中华医学会骨科学分会关节外科学组, 王坤正, 等.膝关节置换3D打印个性化手术工具临床应用专家共识( 2023年版 )[J/OL].中华关节外科杂志( 电子版 ), 2023, 17( 4 ): 451-461.
[3]
Rodriguez Colon R, Nayak VV, Parente PEL, et al.The presence of 3D printing in orthopedics: a clinical and material review[J].J Orthop Res, 2023, 41( 3 ): 601-613.
[4]
张常贵, 杨柳, 段小军.3D打印技术在关节外科的临床应用进展[J].中国矫形外科杂志, 2019, 27( 16 ): 1497-1501.
[5]
张子安, 刘一楷, 徐亦鹏, 等.3D打印个体化导板在全髋关节置换术中的初步应用[J/OL].中华关节外科杂志( 电子版 ), 2021,15( 6 ): 738-742.
[6]
Duan XJ, Fan HQ, Wang FY, et al.Application of 3D-printed customized guides in subtalar joint arthrodesis[J].Orthop Surg,2019, 11( 3 ): 405-413.
[7]
钱嘉天, 符培亮.3D打印脱细胞的细胞外基质修复软骨缺损的研究进展[J/OL].中华关节外科杂志( 电子版 ),2023, 17 ( 3 ):368-375.
[8]
赵敏超, 黄燕, 袁伟健, 等.3D打印金属内植物在骨科的应用特点[J].中国组织工程研究, 2018, 22( 31 ): 5027-5033.
[9]
陈欣, 杨柳, 段小军.3D打印技术在医药学高等教育中的应用进展[J].中国药业, 2020, 29( 16 ): 53-56.
[10]
Velásquez-García LF, Kornbluth Y.Biomedical applications of metal 3D printing[J].Annu Rev Biomed Eng, 2021, 23: 307-338.
[11]
Yu C, Schimelman J, Wang P, et al.Photopolymerizable biomaterials and light-based 3D printing strategies for biomedical applications[J].Chem Rev, 2020, 120( 19 ): 10695-10743.
[12]
Rizzo ML, Turco S, Spina F, et al.3D printing and 3D bioprinting technology in medicine: ethical and legal issues[J].Clin Ter, 2023,174( 1 ): 80-84.
[13]
徐永清, 宋慕国, 范新宇, 等.3D打印微孔钛人工腕关节的设计与临床应用[J/OL].中华关节外科杂志( 电子版 ), 2021, 15( 2 ):143-150.
[14]
纪琦, 喻正文, 张剑.3D打印金属基生物材料工艺和临床应用的问题与趋势[J].中国组织工程研究, 2021, 25( 16 ): 2597-2604.
[15]
汤慧萍, 李会霞, 车倩颖, 等.电子束粉床3D打印TiAl金属间化合物研究进展[J].精密成形工程, 2022, 14( 11 ): 30-46.
[16]
Shah FA, Snis A, Matic A, et al.3D printed Ti6Al4V implant surface promotes bone maturation and retains a higher density of less aged osteocytes at the bone-implant interface[J].Acta Biomater, 2016,30: 357-367.
[17]
Zhang J, Bermingham MJ, Otte J, et al.Ultrauniform, strong,and ductile 3D-printed titanium alloy through bifunctional alloy design[J].Science, 2024, 383( 6683 ): 639-645.
[18]
Konieczny B, Szczesio-Wlodarczyk A, Sokolowski J, et al.Challenges of co-Cr alloy additive manufacturing methods in dentistry-the current state of knowledge( systematic review )[J/OL].Materials,2020, 13( 16 ): 3524.DOI:10.3390/ma13163524.
[19]
叶健廷, 缪铂尊, 熊英杰, 等.3D打印磷酸钙涂层多孔镁金属支架的力学性能和生物相容性评估[J].解放军医学院学报, 2023,44( 4 ): 417-423.
[20]
Fernández-Fairen M, Murcia A, Iglesias R, et al.Analysis of tantalum implants used for avascular necrosis of the femoral head: a review of five retrieved specimens[J].J Appl Biomater Funct Mater,2012, 10( 1 ): 29-36.
[21]
Balla VK, Banerjee S, Bose S, et al.Direct laser processing of a tantalum coating on titanium for bone replacement structures[J].Acta Biomater, 2010, 6( 6 ): 2329-2334.
[22]
Schildhauer TA, Robie B, Muhr G, et al.Bacterial adherence to tantalum versus commonly used orthopedic metallic implant materials[J].J Orthop Trauma, 2006, 20( 7 ): 476-484.
[23]
杨坤, 汤慧萍, 李元元.粉末床电子束3D打印医用金属材料的研究进展[J].功能材料, 2020, 51( 3 ): 3038-3046.
[24]
Lin Y, He P, Yang G, et al.Efficacy of 3D-printed customized titanium implants and its clinical validation in foot and ankle surgery[J/OL].Int J Bioprinting, 1970: 0125 DOI:10.36922/ijb.0125.
[25]
温湘源, 郑秋宝, 詹潇锐, 等.拓扑优化设计结合3D打印技术在骨科金属内植物的应用进展[J].中国临床解剖学杂志, 2020,38( 6 ): 745-748.
[26]
Moussa A, Rahman S, Xu M, et al.Topology optimization of 3D-printed structurally porous cage for acetabular reinforcement in total hip arthroplasty[J/OL].J Mech Behav Biomed Mater, 2020,105: 103705.DOI:10.1016/j.jmbbm.2020.103705.
[27]
董恩纯, 康建峰, 孙畅宁, 等.3D打印金属椎体替代物力学性能评价[J].医用生物力学, 2024, 39( 1 ): 76-83.
[28]
Gauci SC, Vranic A, Blasco E, et al.Photochemically activated 3D printing inks: current status, challenges, and opportunities[J/OL].Adv Mater, 2024, 36( 3 ): e2306468.DOI:10.1002/adma.202306468.
[29]
Yu H, Xu M, Duan Q, et al.3D-printed porous tantalum artificial bone scaffolds: fabrication, properties, and applications[J/OL].Biomed Mater, 2024, 19( 4 ): 42002 DOI:10.1088/1748-605x/ad46d2.
[30]
杨鑫, 王婉琳, 范亚卓, 等.3D打印金属零件后处理研究现状[J].功能材料, 2020, 51( 5 ): 5043-5052.
[31]
唐成, 李旭祥, 凌辰, 等.3D打印个性化多孔钛金属支架重建髋臼骨缺损的中期疗效评估[J].南京医科大学学报( 自然科学版 ), 2019, 39( 12 ): 1774-1778.
[32]
Wang J, Liu M, Yang C, et al.Biomaterials for bone defect repair:types, mechanisms and effects[J].Int J Artif Organs, 2024, 47( 2 ):75-84.
[33]
Li H, Wang L, Mao Y, et al.Revision of complex acetabular defects using cages with the aid of rapid prototyping[J].J Arthroplasty,2013, 28( 10 ): 1770-1775.
[34]
薛娇, 邱建忠, 杨绍滨, 等.数字三维重建联合3D打印在血管化腓骨移植精准修复下颌骨缺损手术中的临床应用[J].精准医学杂志, 2018, 33( 1 ): 45-50.
[35]
杨龙, 王建吉, 刘国勇, 等.3D打印技术在髋臼发育不良髋关节置换中的初步应用[J].中国矫形外科杂志, 2016, 24( 17 ):1550-1553.
[36]
Dekker TJ, Steele JR, Federer AE, et al.Use of patient-specific 3D-printed titanium implants for complex foot and ankle limb salvage, deformity correction, and arthrodesis procedures[J].Foot Ankle Int, 2018, 39( 8 ): 916-921.
[37]
丁香园.世界首例3D打印金属锁骨和肩胛骨植入手术在西京医院成功实施[J].生物骨科材料与临床研究, 2014, 11( 3 ): 34.
[38]
Xu N, Wei F, Liu X, et al.Reconstruction of the upper cervical spine using a personalized 3D-printed vertebral body in an adolescent with ewing sarcoma[J/OL].Spine, 2016, 41( 1 ): E50- E54.DOI:10.1097/BRS.0000000000001179.
[39]
杨柳, 王富友.医学3D打印多孔钽在骨科的应用[J].第三军医大学学报, 2019, 41( 19 ): 1859-1866.
[40]
Ying J, Cheng L, Li J, et al.Treatment of acetabular bone defect in revision of total hip arthroplasty using 3D printed tantalum acetabular augmen[tJ].Orthop Surg, 2023, 15( 5 ): 1264-1271.
[41]
范华全, 王富友, 何锐, 等.3D打印多孔钽金属髋臼骨缺损假体的制备及其初步临床应用[J].陆军军医大学学报, 2022, 44( 15 ): 1516-1522.
[42]
Yin Q, Liu W, Wang S.Application of customized augments fabricated by rapid prototyping for severe bone defects of the knee[J].Chin Med J, 2014, 127( 15 ): 2870-2871.
[43]
Arts M, Torensma B, Wolfs J.Porous titanium cervical interbody fusion device in the treatment of degenerative cervical radiculopathy;1-year results of a prospective controlled tria[lJ].Spine J, 2020, 20( 7 ): 1065-1072.
[44]
Zhang C, Lin Y, Yang L, et al.3D printing-assisted supramalleolar osteotomy for ankle osteoarthritis[J].ACS Omega, 2022, 7( 46 ):42191-42198.
[45]
Yao Y, Mo Z, Wu G, et al.A personalized 3D-printed plate for tibiotalocalcaneal arthrodesis: Design, fabrication, biomechanical evaluation and postoperative assessmen[tJ/OL].Comput Biol Med,2021, 133: 104368.DOI:10.1016/j.compbiomed.2021.104368.
[46]
Smith KE, Dupont KM, Safranski DL, et al.Use of 3D printed bone plate in novel technique to surgically correct hallux Valgus deformities[J].Tech Orthop, 2016, 31( 3 ): 181-189.
[47]
程文俊, 勘武生, 郑琼, 等.3D打印钛合金骨小梁金属臼杯全髋关节置换术的短期疗效[J].中华骨科杂志, 2014( 8 ): 816-823.
[48]
Wong KC, Kumta SM, Geel NV, et al.One-step reconstruction with a 3D-printed, biomechanically evaluated custom implant after complex pelvic tumor resection[J].Comput Aided Surg, 2015, 20( 1 ):14-23.
[49]
Hussain RM.Metallic 3D printed total talus replacement: a case study[J].J Foot Ankle Surg, 2021, 60( 3 ): 634-641.
[50]
Wallace N, Schaffer NE, Aleem IS, et al.3D-printed patient-specific spine implants: a systematic review[J].Clin Spine Surg, 2020, 33( 10 ): 400-407.
[51]
Girolami M, Boriani S, Bandiera S, et al.Biomimetic 3D-printed custom-made prosthesis for anterior column reconstruction in the thoracolumbar spine: a tailored option following en bloc resection for spinal tumors: Preliminary results on a case-series of 13 patients[J].Eur Spine J, 2018, 27( 12 ): 3073-3083.
[52]
Donaldson C, Santro T, Awad M, et al.3D-printed titanium alloy cage in anterior and lateral lumbar interbody fusion for degenerative lumbar spine disease[J].J Spine Surg, 2024, 10( 1 ): 22-29.
[53]
Lee JJ, Jacome FP, Hiltzik DM, et al.Evolution of titanium interbody cages and current uses of 3D printed titanium in spine fusion surgery[J/OL].Curr Rev Musculoskelet Med, 2024.DOI:10.1007/s12178-024-09912-z.
[54]
Duan X, Wang B, Yang L, et al.Applications of 3D printing technology in orthopedic treatmen[tJ/OL].Biomed Res Int, 2021,2021: 9892456.DOI:10.1155/2021/9892456.
[1] 王玺玉, 赵俊杰, 黄鹏飞, 张兆坤, 赵宇昊, 赵海燕. 基质金属蛋白酶响应性水凝胶在骨关节炎的应用[J/OL]. 中华关节外科杂志(电子版), 2025, 19(01): 76-81.
[2] 赵锦伟, 李晓军, 刘桂宇, 荣晓玲, 黄明利, 宋文静, 高广凌, 鞠昌军. 固定平台假体膝关节单髁置换术中止血带应用策略研究[J/OL]. 中华关节外科杂志(电子版), 2024, 18(01): 39-47.
[3] 刘琴, 刘瀚旻, 谢亮. 基质金属蛋白酶在儿童哮喘发生机制中作用的研究现状[J/OL]. 中华妇幼临床医学杂志(电子版), 2024, 20(05): 564-568.
[4] 李星月, 董伟, 徐永波, 张文法, 胡晓璇, 钟玉绪, 褚海波. 浅表血栓性静脉炎管壁基质金属蛋白酶及其抑制剂表达研究[J/OL]. 中华普通外科学文献(电子版), 2024, 18(05): 338-343.
[5] 吕嘉文, 陈昕昕, 陆婉君, 吴冠楠, 顾晓凌, 吕镗烽, 王栋, 宋勇. 基于功能化新型金属有机框架的化学-光动力联合治疗逆转肺癌细胞顺铂耐药的体外分析[J/OL]. 中华肺部疾病杂志(电子版), 2024, 17(06): 847-854.
[6] 井发红, 李丽娜, 高婷, 高艳梅, 杨楠, 李卓, 慕玉东. 肺癌立体定向放疗血清SAP 和MMPs 表达及临床意义[J/OL]. 中华肺部疾病杂志(电子版), 2024, 17(05): 707-713.
[7] 梁丽斯, 李洁, 贺帅, 来艳君, 刘铭, 张琳. MMP-9、MMP-2 及TLR4、HE4对非小细胞肺癌早期诊断意义[J/OL]. 中华肺部疾病杂志(电子版), 2024, 17(05): 756-761.
[8] 石阳, 于剑锋, 曹可, 翟志伟, 叶春祥, 王振军, 韩加刚. 可扩张金属支架置入联合新辅助化疗治疗完全梗阻性左半结肠癌围手术期并发症分析[J/OL]. 中华结直肠疾病电子杂志, 2024, 13(06): 464-471.
[9] 韩加刚, 王振军. 梗阻性左半结肠癌的治疗策略[J/OL]. 中华结直肠疾病电子杂志, 2024, 13(06): 450-458.
[10] 张迪, 王春霞, 张学东, 李发馨, 庞淅文, 陈一锋, 张维胜, 王涛. 梗阻性左半结直肠癌自膨式金属支架置入后行腹腔镜手术与开腹手术的短期临床疗效比较[J/OL]. 中华结直肠疾病电子杂志, 2024, 13(05): 375-380.
[11] 张涛, 汪建茹, 赵瑾超, 葛程, 钱竹韵, 陶勇. 基质金属蛋白酶9即时检测对干眼诊断效能分析的临床研究[J/OL]. 中华眼科医学杂志(电子版), 2024, 14(01): 14-19.
[12] 钟小军, 杨清峰, 邹忠元, 丘宁宁, 李见英, 邹四珍, 黄小琴, 郭冠华, 牛立志. 支气管镜联合数字减影血管造影在恶性气道狭窄金属支架置入中的应用[J/OL]. 中华介入放射学电子杂志, 2024, 12(04): 317-322.
[13] Kun Yung Kim, 曹家玮, Ho Young Song, Jin Young Kim, 袁航, 胡鸿涛, Jin Yoon Chang. 胃十二指肠支架置入术[J/OL]. 中华介入放射学电子杂志, 2024, 12(02): 97-105.
[14] 刘聪辉, 何浩然, 黄一诺, 张凤, 王凡月, 郝翰. 膳食铜补充对大鼠心肌梗死后心肌基质金属蛋白酶2表达水平及血流动力学的影响[J/OL]. 中华诊断学电子杂志, 2024, 12(03): 166-172.
[15] 范钦梅, 丁永刚, 张婷, 毛丽娟, 李方圆, 陈晶, 李文杰, 张其德. 金属夹夹闭术在食管静脉曲张出血内镜治疗中的应用价值[J/OL]. 中华胃肠内镜电子杂志, 2025, 12(01): 19-24.
阅读次数
全文


摘要

版权所有 中华医学会 中华医学电子音像出版社有限责任公司  京ICP备14006079号-1  网络出版服务许可证:(署)网出证(京)字第075号