Division of Cardiology, Nationwide Children's Hospital, Columbus, Ohio, USA.
Department of Pediatrics, The Ohio State University College of Medicine, Columbus, Ohio, USA.
J Cardiovasc Electrophysiol. 2023 Jun;34(6):1452-1458. doi: 10.1111/jce.15926. Epub 2023 May 12.
Pacemaker implantation in infants and small children is limited to epicardial lead placement via open chest surgery. We propose a minimally invasive solution using a novel percutaneous access kit.
To evaluate the acute safety and feasibility of a novel percutaneous pericardial access tool kit to implant pacemaker leads on the epicardium under direct visualization.
A custom sheath with optical fiber lining the inside wall was built to provide intrathoracic illumination. A Veress needle inside the illumination sheath was inserted through a skin nick just to the left of the xiphoid process and angled toward the thorax. A needle containing a fiberscope within the lumen was inserted through the sheath and used to access the pericardium under direct visualization. A custom dilator and peel-away sheath with pre-tunneled fiberscope was passed over a guidewire into the pericardial space via modified Seldinger technique. A side-biting multipolar pacemaker lead was inserted through the sheath and affixed against the epicardium.
Six piglets (weight 3.7-4.0 kg) had successful lead implantation. The pericardial space could be visualized and entered in all animals. Median time from skin nick to sheath access of the pericardium was 9.5 (interquartile range [IQR] 8-11) min. Median total procedure time was 16 (IQR 14-19) min. Median R wave sensing was 5.4 (IQR 4.0-7.3) mV. Median capture threshold was 2.1 (IQR 1.7-2.4) V at 0.4 ms and 1.3 (IQR 1.2-2.0) V at 1.0 ms. There were no complications.
Percutaneous epicardial lead implantation under direct visualization was successful in six piglets of neonatal size and weight with clinically acceptable acute pacing parameters.
在婴儿和幼儿中进行起搏器植入仅限于通过开胸手术进行心外膜导联放置。我们提出了一种使用新型经皮入路套件的微创解决方案。
评估一种新型经皮心包入路工具包在直视下在心外膜上植入起搏器导联的急性安全性和可行性。
构建了带有内壁光纤的定制鞘,以提供胸腔内照明。将内置照明鞘内的 Veress 针插入胸骨剑突左侧的皮肤切口,并朝向胸腔倾斜。将带有内腔纤维镜的针插入鞘内,并用于在直视下进入心包。将定制的扩张器和带有预穿孔纤维镜的剥脱鞘通过改良的 Seldinger 技术经导丝进入心包腔。通过鞘插入侧咬式多极起搏器导联并将其固定在心外膜上。
六只小猪(体重 3.7-4.0kg)成功植入了导联。所有动物的心包均可被可视化并进入。从皮肤切口到心包鞘进入的中位数时间为 9.5(四分位距[IQR] 8-11)分钟。中位数总手术时间为 16(IQR 14-19)分钟。中位数 R 波感知为 5.4(IQR 4.0-7.3)mV。中位数捕获阈值在 0.4ms 时为 2.1(IQR 1.7-2.4)V,在 1.0ms 时为 1.3(IQR 1.2-2.0)V。无并发症发生。
在新生儿大小和体重的六只小猪中,经皮直视下心外膜导联植入术成功,具有可接受的急性起搏参数。