心内膜碳编织电极。降低除颤阈值的新概念。

Endocardial carbon-braid electrodes. A new concept for lower defibrillation thresholds.

作者信息

Alt E U, Fotuhi P C, Callihan R L, Mestre E, Smith W M, Ideker R E

机构信息

I. Medizinische Klinik, Technische Universität München, Germany.

出版信息

Circulation. 1995 Sep 15;92(6):1627-33. doi: 10.1161/01.cir.92.6.1627.

DOI:10.1161/01.cir.92.6.1627

PMID:7664450

Abstract

BACKGROUND

In the treatment of patients with life-threatening ventricular arrhythmia, transvenous implantable cardioverter/defibrillators provide significant advantages over devices requiring a thoracotomy. This study tested the hypothesis that a new carbon-fiber electrode, designed at the Technische Universität in Munich, Germany, has a lower defibrillation threshold (DFT) than standard transvenous defibrillation electrodes.

METHODS AND RESULTS

In 8 mongrel dogs (weight, 25.2 +/- 0.8 kg; heart weight, 192 +/- 19 g), we examined the efficacy and electrical characteristics of a right ventricular endocardial carbon prototype defibrillation electrode (9.5F, 4.4-cm2 surface) compared with a standard CPI 0062 Endotak electrode and a Medtronic 6966 Transvene endocardial right ventricular defibrillation electrode. The new electrode consists of 24 braided, tubular carbon filaments, each containing 1000 highly isotropic carbon fibers of 7-microns diameter, yielding a theoretical electrical surface of 480 cm2. The DFTs were determined in random order between each of the three right ventricular electrodes and a subcutaneous wire array anode placed on the left thorax. A standard step-down/up DFT protocol of 20-V shock steps was applied. Two different biphasic waveforms with a 1-ms delay between phases were tested: 3.2-ms first phase/2.0-ms second phase, and 6.0-ms first phase/6.0-ms second phase. For the 3.2/2.0-ms waveform, we found a significantly lower DFT for the carbon lead (4.96 +/- 1.58 J) compared with the CPI 0062 (6.93 +/- 1.67 J) and the Medtronic 6966 (7.49 +/- 0.99 J) leads. For the 6.0/6.0-ms waveform, the DFT for the carbon electrode (5.97 +/- 2.09 J) was significantly lower than for the Medtronic 6966 lead (8.55 +/- 1.93 J) but not for the CPI 0062 lead (6.30 +/- 1.41 J). The impedance with carbon was lower than with the other two leads for the 6.0/6.0-ms waveform but not for the 3.2/2.0-ms waveform. For the carbon electrode, the 3.2/2.0-ms waveform had a lower DFT than the 6.0/6.0-ms waveform.

CONCLUSIONS

The present canine study found a lower DFT for a new carbon electrode compared with DFTs for endocardial defibrillation electrodes made of standard metal. Further long-term animal studies and clinical studies are needed to determine whether carbon materials and braided-lead technology are practical and beneficial in patients.

摘要

背景

在治疗危及生命的室性心律失常患者时，经静脉植入式心脏复律除颤器相较于需要开胸的装置具有显著优势。本研究检验了这样一个假设，即由德国慕尼黑工业大学设计的新型碳纤维电极，其除颤阈值（DFT）低于标准经静脉除颤电极。

方法与结果

在8只杂种犬（体重25.2±0.8千克；心脏重量192±19克）中，我们比较了右心室心内膜碳原型除颤电极（9.5F，4.4平方厘米表面）与标准CPI 0062 Endotak电极以及美敦力6966经静脉心内膜右心室除颤电极的有效性和电学特性。新型电极由24根编织的管状碳纤维丝组成，每根包含1000根直径7微米的高度各向同性碳纤维，理论电学表面积为480平方厘米。DFT在三个右心室电极中的每一个与置于左胸的皮下线阵阳极之间随机顺序测定。应用了20伏电击步长的标准降/升DFT方案。测试了两种不同的双相波形，两相之间延迟1毫秒：3.2毫秒第一相/2.0毫秒第二相，以及6.0毫秒第一相/6.0毫秒第二相。对于3.2/2.0毫秒波形，我们发现碳电极的DFT（4.96±1.58焦耳）显著低于CPI 0062电极（6.93±1.67焦耳）和美敦力6966电极（7.49±0.99焦耳）。对于6.0/6.0毫秒波形，碳电极的DFT（5.97±2.09焦耳）显著低于美敦力6966电极（8.55±1.93焦耳），但不低于CPI 0062电极（6.30±1.41焦耳）。对于6.0/6.0毫秒波形，碳电极的阻抗低于其他两根电极，但对于3.2/2.0毫秒波形则不然。对于碳电极，3.2/2.0毫秒波形的DFT低于6.0/6.0毫秒波形。