用于Brugada综合征基质消融的3D打印手术导板的研发。
Development of a 3D printed surgical guide for Brugada syndrome substrate ablation.
作者信息
Talevi Giacomo, Pannone Luigi, Monaco Cinzia, Bori Edoardo, Cappello Ida Anna, Candelari Mara, Ramak Robbert, La Meir Mark, Gharaviri Ali, Chierchia Gian Battista, Innocenti Bernardo, de Asmundis Carlo
机构信息
Heart Rhythm Management Centre, Postgraduate Program in Cardiac Electrophysiology and Pacing, Universitair Ziekenhuis Brussel - Vrije Universiteit Brussel, European Reference Networks Guard-Heart, Brussels, Belgium.
BEAMS Department (Bio Electro and Mechanical Systems), Université Libre de Bruxelles, Brussels, Belgium.
出版信息
Front Cardiovasc Med. 2022 Nov 15;9:1029685. doi: 10.3389/fcvm.2022.1029685. eCollection 2022.
BACKGROUND
Brugada syndrome (BrS) is a disease associated with ventricular arrhythmias and sudden cardiac death. Epicardial ablation has demonstrated high therapeutic efficacy in preventing ventricular arrhythmias. The purpose of this research is to define a workflow to create a patient-specific 3D-printed tool to be used as a surgical guide for epicardial ablation in BrS.
METHODS
Due to their mechanical properties and biocompatibility, the MED625FLX and TPU95A were used for cardiac 3D surgical guide printing. ECG imaging was used to define the target region on the right ventricular outflow tract (RVOT). CT scan imaging was used to design the model based on patient anatomy. A 3D patient-specific heart phantom was also printed for fitting test. Sterilization test was finally performed.
RESULTS
3D printed surgical models with both TPU95A and MED625FLX models were in agreement with pre-specified imputed measurements. The phantom test showed retention of shape and correct fitting of the surgical tool to the reproduced phantom anatomy, as expected, for both materials. The surgical guide adapted to both the RVOT and the left anterior descending artery. Two of the 3D models produced in MED265FLX showed damage due to the sterilization process.
CONCLUSIONS
A 3D printed patient-specific surgical guide for epicardial substrate ablation in BrS is feasible if a specific workflow is followed. The design of the 3D surgical guide ensures proper fitting on the heart phantom with good stability. Further investigations for clinical use are eagerly awaited.
背景
Brugada综合征(BrS)是一种与室性心律失常和心源性猝死相关的疾病。心外膜消融在预防室性心律失常方面已显示出高治疗效果。本研究的目的是确定一种工作流程,以创建一种患者特异性的3D打印工具,用作BrS心外膜消融的手术导向。
方法
由于其机械性能和生物相容性,MED625FLX和TPU95A被用于心脏3D手术导向打印。心电图成像用于确定右心室流出道(RVOT)上的目标区域。CT扫描成像用于根据患者解剖结构设计模型。还打印了一个患者特异性的心脏模型用于拟合测试。最后进行了灭菌测试。
结果
TPU95A和MED625FLX模型的3D打印手术模型与预先指定的估算测量值一致。模型测试表明,两种材料的手术工具均如预期那样保持形状并与复制的模型解剖结构正确拟合。手术导向适用于RVOT和左前降支动脉。MED265FLX生产的3D模型中有两个在灭菌过程中出现损坏。
结论
如果遵循特定的工作流程,为BrS的心外膜基质消融制作3D打印的患者特异性手术导向是可行的。3D手术导向的设计确保了在心脏模型上的良好拟合和稳定性。迫切期待进一步的临床应用研究。
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