Journal of Surgery Concepts & Practice >
Clinical application of 3D parametric surface planar topological guide plate in fenestrated/branched endovascular aortic repair technique
Received date: 2022-05-30
Online published: 2022-09-20
Objective To summarize the experience and effect using 3D parametric surface planar topological guide plate technology in fenestrated/branched endovascular aortic repair (F/B EVAR) to repair aortic arch and thoracoabdominal aortic lesions involving important aortic branches. Methods From August 2020 through April 2022, 17 patients [14 males and 3 females, mean age of(61.06±11.23)(39-78) years] with complex aortic lesions involving important branches were treated in both Nanjing Drum Tower Hospital and Union Hospital. There were 8 cases with aortic arch aneurysms 4 cases and dissections 4 cases, respectively, and 9 cases with thoracoabdominal aortic aneurysms 5 cases and dissections 4 cases, respectively. Six cases were urgent operation and 11 cases were selective operation. Before operation, 3D parametric surface planar topological guide plate was made according to aortic computed tomography angiography. Under the guidance of planar guide plate, pre-fenestrated and external/internal branched and other endovascular aortic repair was performed. Totally, 50 fenestrated/branched stent grafts were planted. Results All operations were completed without conversion to open surgery. Average operative time was (4.57±2.29)(1.50-10.67) h. There was no renal insufficiency, paraplegia and loss of branch arteries. One patient (5.88%) died during perioperative period. Within the follow-up, there were 2 cases (11.76%) of endoleak type Ⅰc and type Ⅲc, respectively. Conclusions F/B EVAR under the guidance of 3D parametric surface planar topological guide plate is a minimally invasive treatment. The technology is more accurate than traditional measurement and positioning, faster than 3D printing guidance, and safe and reliable shown in the follow-up.
FU Dongsheng, LIU Zhao, YANG Chao, LI Qin, CHEN Gezheng, SUN Lili, LI Wendong, ZHOU Minjie, LIU Chen, QIAO Tong, LI Yiqing, LI Xiaoqiang . Clinical application of 3D parametric surface planar topological guide plate in fenestrated/branched endovascular aortic repair technique[J]. Journal of Surgery Concepts & Practice, 2022 , 27(04) : 318 -323 . DOI: 10.16139/j.1007-9610.2022.04.009
| [1] | Mani K, Kolh P, Lepidi S. Treatment of thoracic and thoraco-abdominal aortic pathology in the endovascular era[J]. Eur J Vasc Endovasc Surg, 2019, 57(4):473-474. |
| [2] | Kärkkäinen JM, Pather K, Tenorio ER, et al. Should endovascular approach be considered as the first option for thoraco-abdominal aortic aneurysms?[J]. J Cardiovasc Surg (Torino), 2019, 60(3):298-312. |
| [3] | Tenorio ER, Dias-Neto MF, Lima GBB, et al. Endovascular repair for thoracoabdominal aortic aneurysms: current status and future challenges[J]. Ann Cardiothorac Surg, 2021, 10(6):744-767. |
| [4] | Tong YH, Yu T, Zhou MJ, et al. Use of 3D printing to guide creation of fenestrations in physician-modified stent-grafts for treatment of thoracoabdominal aortic disease[J]. J Endovasc Ther, 2020, 27(3):385-393. |
| [5] | 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. |
| [6] | Swerdlow NJ, Wu WW, Schermerhorn ML. Open and endovascular management of aortic aneurysms[J]. Circ Res, 2019, 124(4):647-661. |
| [7] | Soknes MD, Lingaas PS, Lundblad R, et al. Total aortic arch replacement using the thoraflex hybrid prosthesis: early- and medium-term results from a Scandinavian center[J]. Scand Cardiovasc J, 2021, 55(5):308-314. |
| [8] | Bhamidipati CM, Pal JD. Early results of a novel single-stage hybrid aortic arch replacement technique to reduce bypass and circulatory arrest duration[J]. Heart Surg Forum, 2020, 23(2):E107-E113. |
| [9] | Mehmedovic A, Konstantinou N, Jerkku T, et al. Aortic aneurysm: fenestrated/branched endovascular aortic repair (EVAR) and fenestrated/branched thoracic endovascular aortic repair(TEVAR). is total endovascular repair already here?[J]. Zentralbl Chir, 2020, 145(5):432-437. |
| [10] | Schanzer A, Simons JP, Flahive J, et al. Outcomes of fenestrated and branched endovascular repair of complex abdominal and thoracoabdominal aortic aneurysms[J]. J Vasc Surg, 2017, 66(3):687-694. |
| [11] | Caradu C, Berard X, Sassoust G, et al. Chimney versus fenestrated endovascular aortic repair for juxta-renal aneurysms[J]. J Cardiovasc Surg (Torino), 2018, 59(4):600-610. |
| [12] | Tsilimparis N, Haulon S, Spanos K, et al. Combined fenestrated-branched endovascular repair of the aortic arch and the thoracoabdominal aorta[J]. J Vasc Surg, 2020, 71(6):1825-1833. |
| [13] | Gallitto E, Faggioli G, Mascoli C, et al. Impact of pre-vious open aortic repair on the outcome of thoracoabdomi-nal fenestrated and branched endografts[J]. J Vasc Surg, 2018, 68(6):1667-1675. |
| [14] | Feng J, Fu J, Lin Z, et al. A review of the design methods of complex topology structures for 3D printing[J]. Vis Comput Ind Biomed Art, 2018, 1(1):5. |
/
| 〈 |
|
〉 |
