Department of Cardiology, First Affiliated Hospital of Tsinghua University, Beijing, China.
Department of Cardiology, Guiyang First People's Hospital, Guizhou, China.
J Interv Card Electrophysiol. 2023 Apr;66(3):783-792. doi: 10.1007/s10840-022-01297-8. Epub 2022 Jul 9.
During the last decade, three-dimensional mapping technology has substantially aided the development of cardiac implanted electronic devices (CIEDs). This article intends to present an outline of the use and benefits of three-dimensional (3D) mapping systems in CIEDs.
As an alternative to fluoroscopy, 3D mapping greatly minimizes radiation exposure and eliminates the need for contrast dye during the implantation of CIEDs. Based on the visualization of the pacing lead tip and accurate anatomic reconstruction of the chamber of interest and a specialized mapping technique, 3D mapping technology dramatically improves the efficacy and success of the advanced cardiac implantable devices' placement. Additionally, it provides a superior option for those with complex medical conditions.
The use of 3D mapping technology in CIEDs has been proven feasible and effective by accumulating evidence. It is fair to anticipate that it will be widely used in CIED implantation in the future.
在过去十年中,三维绘图技术极大地促进了心脏植入式电子设备(CIEDs)的发展。本文旨在概述三维(3D)映射系统在 CIEDs 中的使用和益处。
作为透视的替代方法,3D 绘图极大地减少了辐射暴露,并且在植入 CIED 时无需使用对比染料。基于起搏导线尖端的可视化和感兴趣腔室的精确解剖重建以及专门的绘图技术,3D 绘图技术极大地提高了先进心脏植入设备放置的效果和成功率。此外,对于患有复杂疾病的患者,它提供了更好的选择。
通过积累证据,已经证明在 CIED 中使用 3D 绘图技术是可行且有效的。可以合理地预计,它将在未来广泛用于 CIED 植入。
