参考文献/References:
[1] 徐 克.卫生部《介入诊疗技术管理规范》解读[J].放射学实践,2012,27:1288-1292.
[2]Haiser A,Aydin A,Kunduzi B,et al.A systematic review of simulation-based training in vascular surgery[J].J Surg Res,2022,279:409-419.
[3]Lederman A,Saliture Neto FT,Ferreira R,et al.Endovascular model of abdominal aortic aneurysm induction in swine[J].Vasc Med,2014,19:167-174.
[4]Mathern N,Yousefian E,Ridwan H,et al.Comparison of porcine and human vascular diameters for the optimization of interventional stroke training and research[J].PLoS One,2022,17:e0268005.
[5]Li Z,Liu J,Feng R,et al.A new porcine model of ascending aortic aneurysm established using a cover-then-cut method[J].Surg Today,2021,51:906-915.
[6]Arikan F,Gandara D,Esteves M,et al.Surgical options in experimental porcine model for endovascular training in complex vascular lesions[J].Interv Neuroradiol,2019,25:338-343.
[7]Berry M,Lystig T,Beard J,et al.Porcine transfer study:virtual reality simulator training compared with porcine training in endovascular novices[J].Cardiovasc Intervent Radiol,2007,30:455-461.
[8]Ahmed K,Keeling AN,Fakhry M,et al.Role of virtual reality simulation in teaching and assessing technical skills in endovascular intervention[J].J Vasc Interv Radiol,2010,21:55-66.
[9]Sarkar A,Kalsi R,Ayers JD,et al.Continuous flow perfused cadaver model for endovascular training,research,and development[J].Ann Vasc Surg,2018,48:174-181.
[10]Nesbitt C,Williams R,McCaslin J,et al.Design of a pulsatile fresh frozen human cadaver circulation model for endovascular training[J].Ann Vasc Surg,2017,44:425-430.
[11]Rifahi A,Chastant R,Forest-Nault C,et al.A cadaveric perfused model with antegrade arteriovenous pulsatile circulation:a new tool for teaching endovascular skills[J].Can J Surg,2022,65:E407-E416.
[12]Hartung V,Augustin AM,Grunz JP,et al.Training for endovascular therapy of acute arterial disease and procedure-related complication:an extracorporeally-perfused human cadaver model study[J].PLoS One,2024,19:e0297800.
[13]Tsai TY,Onuma Y,Zlahoda-Huzior A,et al.Merging virtual and physical experiences:extended realities in cardiovascular medicine[J].Eur Heart J,2023,44:3311-3322.
[14]Rudarakanchana N,Van Herzeele I,Desender L,et al.Virtual reality simulation for the optimization of endovascular procedures:current perspectives[J].Vasc Health Risk Manag,2015,11:195-202.
[15]Haiser A,Aydin A,Kunduzi B,et al.A systematic review of Simulation-Based training in vascular surgery[J].J Surg Res,2022,279:409-419.
[16]Wooster M,Doyle A,Hislop S,et al.REHEARSAL using patient-specific simulation to improve endovascular efficiency[J].Vasc Endovascular Surg,2018,52:169-172.
[17]Li W,Ma S,Zhou L,et al.The bibliometric analysis of extended reality in surgical training:Global and Chinese perspective[J].Heliyon,2024,10:e27340.
[18]何梓君,孔 健.人工智能在介入放射学中的运用前景及挑战[J].介入放射学杂志,2023,32:1251-1255.
[19]Chung M,Radacsi N,Robert C,et al.On the optimization of low-cost FDM 3D printers for accurate replication of patient-specific abdominal aortic aneurysm geometry[J].3D Print Med,2018,4:2.
[20]Coles-Black J,Bolton D,Chuen J.Accessing 3D printed vascular phantoms for procedural simulation[J].Front Surg,2020:626212.
[21]Goudie C,Kinnin J,Bartellas M,et al.The use of 3D printed vasculature for simulation-based medical education within interventional radiology[J].Cureus,2019,11:e4381.
[22]Kaschwich M,Sieren M,Matysiak F,et al.Feasibility of an endovascular training and research environment with exchangeable patient specific 3D printed vascular anatomy:simulator with exchangeable patient-specific 3D-printed vascular anatomy for endovascular training and research[J].Ann Anat,2020,231:151519.
[23]Sulaiman A,Boussel L,Taconnet F,et al.In vitro non-rigid life-size model of aortic arch aneurysm for endovascular prosthesis assessment[J].Eur J Cardiothorac Surg,2008,33:53-57.
[24]O'Reilly MK,Reese S,Herlihy T,et al.Fabrication and assessment of 3D printed anatomical models of the lower limb for anatomical teaching and femoral vessel access training in medicine[J].Anat Sci Educ,2016,9:71-79.
[25]江启迪,胡何节,方征东,等.3D打印技术制备主动脉弹性血管模型在主动脉疾病中的应用[J].血管与腔内血管外科杂志,2019,5:1-6.
[26]Chepelev L,Wake N,Ryan J,et al.Radiological society of North America(RSNA)3D printing special interest group(SIG):guidelines for medical 3D printing and appropriateness for clinical scenarios[J].3D Print Med,2018,4:11.
[27]Lee J,Chadalavada SC,Ghodadra A,et al.Clinical situations for which 3D printing is considered an appropriate representation or extension of data contained in a medical imaging examination:vascular conditions[J].3D Print Med,2023,9:34.
[28]Pakeliani D,Bleuler A,Chaykovska L,et al.Patient-specific rehearsal feasibility before endovascular repair of ruptured abdominal aortic aneurysm[J].J Endovasc Ther,2019,26:871-878.
[29]Gocer H,Durukan AB,Tunc O,et al.Evaluation of 3D printing in planning,practicing,and training for endovascular lower extremity arterial interventions[J].Turk Gogus Kalp Dama,2021,29:20-26.
[30]Rynio P,Falkowski A,Witowski J,et al.Simulation and training of needle puncture procedure with a patient-specific 3D printed gluteal artery model[J].J Clin Med,2020,9:686.
[31]Marone EM,Peri A,Argenti F,et al.Robotic treatment of complex splenic artery aneurysms with deep hilar location:technical insights and midterm results[J].Ann Vasc Surg,2020,68:50-56.
[32]Soliński DG,Celer M,Dys K,et al.3D printing in the preoperative planning and endovascular treatment of splenic artery aneurysm.Own clinical experience and literature review[J].Wideochir Inne Tech Malo Inwazyjne,2022,17:110-115.
[33]Solinski DG,Celer M,Dys K,et al.3D printing in the endovascular treatment of visceral artery aneurysms[J].Medicine(Baltimore),2023,102:e35844.
[34]Shibata E,Takao H,Amemiya S,et al.3D-printed visceral aneurysm models based on CT data for simulations of endovascular embolization:evaluation of size and shape accuracy[J].AJR Am J Roentgenol,2017,209:243-247.
[35]Lin JC,Myers E.Three-dimensional printing for preoperative planning of renal artery aneurysm surgery[J].J Vasc Surg,2016,64:810.
[36]Tong Y,Qin Y,Yu T,et al.Three-dimensional printing to guide the application of modified prefenestrated stent grafts to treat aortic arch disease[J].Ann Vasc Surg,2020,66:152-159.
[37]Li C,Lu Z,Yan Y,et al.Three-dimensional printing-assisted fabrication of stent graft to reconstruct the total aortic arch[J].Ann Thorac Surg,2020,110:1055-1059.
[38]Torres IO,De Luccia N.A simulator for training in endovascular aneurysm repair:the use of three dimensional printers[J].Eur J Vasc Endovasc Surg,2017,54:247-253.
[39]佴启元,平 杰,魏梦雪,等.3D打印在布-加综合征介入治疗中应用初步研究[J].介入放射学杂志,2017,26:732-735.
[40]李伟之,郑君仪,于 颖,等.三维打印辅助TIPS治疗肝硬化食管胃底静脉曲张出血[J].介入放射学杂志,2019,28:730-733.
[41]Wang H,Guo YT,Jiao Y,et al.A minimally invasive alternative for the treatment of Nutcracker syndrome using individualized three-dimensional printed extravasculartitanium stents[J].Chin Med J(Engl),2019,132:1454-1460.
[42]He D,Liang J,Wang H,et al.3D-printed PEEK extravascular stent in the treatment of nutcracker syndrome:imaging evaluation and short-term clinical outcome[J].Front Bioeng Biotechnol,2020,8:732.
[43]Chick JFB,Reddy SN,Yu AC,et al.Three-dimensional printing facilitates successful endovascular closure of a type Ⅱ abernethy malformation using an amplatzer atrial septal occluder device[J].Ann Vasc Surg,2017,43:311.e15-311.e23.
[44]Aldosari S,Jansen S,Sun Z.Patient-specific 3D printed pulmonary artery model with simulation of peripheral pulmonary embolism for developing optimal computed tomography pulmonary angiography protocols[J].Quant Imaging Med Surg,2019,9:75-85.
[45]吴志远,程永德.数字介入——当介入放射学遇上数字医学[J].介入放射学杂志,2024,33:1-6.
[46]徐文博,穆 兰.元宇宙医学在血管腔内介入治疗中的应用现状与未来[J].介入放射学杂志,2024,33:86-89.
(收稿日期:2024-05-14)
(本文编辑:新 宇)