电极永久性植入脑部,由植入式起搏器供电。
The electrodes stay in permanently, powered by an implanted pacemaker.
结论起搏器以上参数不能作为判定电极位置的指标。
Conclusion Pacing parameters should not be used as the index to judge the location of pacemaker electrode in ventricle.
目的探讨使用普通电极经右颈内静脉在床旁快速、安全安置心脏临时起搏器方法。
Objective To explore the technique to implant temporary cardiac pacemaker quickly and safely by using ordinary electrode catheter via right jugular internal vein bedside.
文章最后还讨论了常用的几种心脏起搏器灵敏度测试波的优缺点以及两种起搏电极的带负载能力。
The advantages and shortcomings of conventional pacemaker sensitivity testing waves and the load capacities of the pacing electrodes are discussed.
另一个目标是给该电极的无线连接,并且建立一个电源,该电源可以持续数年,相似的心脏起搏器的。
Another goal is giving the electrodes wireless connectivity, and creating a power source that can last for years, similar to that of a pacemaker.
目的探讨单根电极导线心室起搏双腔感知双反应方式起搏器(VDD起搏器)的远期临床使用效果。
Objective to inquire into the forward clinical results of ventricular pacing, dual-chamber sensing, atrial-triggered, and ventricular-inhibited (VDD) Pacemaker in an unipolar lead.
摘要起搏阻抗反映了起搏器、起搏电极和心肌组织组成的起搏系统的连接状况。
Abstract the pacing impedance reflects the connection situation between pacemaker, electrodes and cardiac tissue.
起搏阻抗反映了起搏器、起搏电极和心肌组织组成的起搏系统的连接状况。
The pacing impedance reflects the connection situation between pacemaker, electrodes and cardiac tissue.
起搏阻抗反映了起搏器、起搏电极和心肌组织组成的起搏系统的连接状况。
The pacing impedance reflects the connection situation between pacemaker, electrodes and cardiac tissue.
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