基于三维打印的左心耳封堵模拟：对结果和技术的新见解。

Left atrial appendage occlusion simulation based on three-dimensional printing: new insights into outcome and technique.

机构信息

Hôpital Privé "Les Franciscaines", Nîmes, France.

出版信息

EuroIntervention. 2018 Jun 20;14(2):176-184. doi: 10.4244/EIJ-D-17-00970.

DOI:10.4244/EIJ-D-17-00970

PMID:29537376

Abstract

AIMS

The aim of this study was to assess the predictive value of simulation based on 3D-printed models before left atrial appendage occlusion (LAAO) for peri-device leaks (PDL) and the impact on procedural outcomes compared to conventional imaging.

METHODS AND RESULTS

Seventy-six patients referred for LAAO with double disc device underwent construction of a 3D-printed LA model using flexible photopolymer resin. An implant simulation was performed retrospectively in Group 1 (55 patients), blinded to implanted device size, and prospectively in Group 2 (21 patients). In Group 1, an off-axis device position occurred in 14 patients (25%) and the incidence of PDL was 27% (15 patients); mismatch between model and device size was the best predictor (area under the curve 0.88, CI: 0.77-0.99). When using 3D simulation prospectively, mean prosthesis number per patient (1.05±0.21 vs. 1.20±0.52, p=0.04) and incidence of leaks (5% vs. 27%, p<0.01) were reduced compared to conventional imaging alone, as well as fluoroscopy time (19 mins [13.4-23] vs. 13.5 mins [11.1-15], p=0.012) and total fluoroscopy dose (7,291 [1,811-12,734] vs. 1,978 (1,548-4,800) mGy·cm2, p=0.029).

CONCLUSIONS

3D-printed patient-specific adaptive and flexible LA models improve LAAO double disc device sizing. This can potentially reduce procedure time and the number of prostheses employed per patient.

摘要

目的

本研究旨在评估基于 3D 打印模型的模拟在左心耳封堵术（LAAO）前对设备周围漏（PDL）的预测价值，并与传统影像学相比对手术结果的影响。

方法和结果

76 例接受双盘装置 LAAO 的患者使用柔性光聚合物树脂构建 3D 打印左心房模型。在第 1 组（55 例患者）中回顾性地进行了植入物模拟，模拟时对植入装置的大小不知情，在第 2 组（21 例患者）中前瞻性地进行了模拟。在第 1 组中，14 例患者（25%）出现偏心装置位置，PDL 的发生率为 27%（15 例）；模型与装置大小不匹配是最佳预测因素（曲线下面积 0.88，CI：0.77-0.99）。当前瞻性使用 3D 模拟时，与单独使用传统影像学相比，每位患者的假体数量（1.05±0.21 对 1.20±0.52，p=0.04）和漏的发生率（5%对 27%，p<0.01）降低，透视时间（19 分钟 [13.4-23] 对 13.5 分钟 [11.1-15]，p=0.012）和总透视剂量（7,291 [1,811-12,734] 对 1,978 [1,548-4,800] mGy·cm2，p=0.029）也降低。

结论

3D 打印的患者特异性自适应和灵活的左心房模型可改善 LAAO 双盘装置的大小。这可能会减少手术时间和每位患者使用的假体数量。

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基于三维打印的左心耳封堵模拟：对结果和技术的新见解。

Left atrial appendage occlusion simulation based on three-dimensional printing: new insights into outcome and technique.

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSIONS

目的

方法和结果

结论

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