Division of Cardiovascular Disease, University of Alabama at Birmingham, Birmingham, Alabama.
Ruse Technologies, LLC, Atlanta, Georgia.
JACC Clin Electrophysiol. 2019 Jul;5(7):854-862. doi: 10.1016/j.jacep.2019.04.006. Epub 2019 May 29.
This study tested the hypothesis that a biphasic defibrillation waveform with an ascending first phase (ASC) causes less myocardial damage by pathology and injury current than a standard biphasic truncated exponential (BTE) waveform in a swine model.
Although lifesaving, defibrillation shocks have significant iatrogenic effects that reduce their benefit for patient survival.
An ASC waveform with an 8-ms linear ramp followed by an additional positive 0.5-ms decaying portion with amplitudes of 20 J (ASC 20J) and 25 J (ASC 25J) was used. The control was a 25-J BTE conventional waveform (BTE 25J) RESULTS: The ASC 20J and ASC 25J shocks were both successful in 6 of 6 pigs, but the BTE 25J was successful in only 6 of 14 pigs (p < 0.05). Post-shock ST-segment elevation (injury current) in the right ventricular electrode was significantly greater with BTE 25J than with ASC 20J and ASC 25J. With a blinded pathology reading, hemorrhage, inflammation, thrombi, and necrosis 24 h post-shock were significantly greater with BTE 25J than with ASC 20J and ASC 25J. Troponin levels were also markedly lower at 3, 4, 5, and 6 h post-shock.
Defibrillation shocks cause electrophysiological, histological, and biochemical signs of myocardial damage and necrosis. These signs of damage are markedly less for an ASC waveform than for a conventional BTE waveform.
本研究旨在检验假设,即在猪模型中,与标准双相截断指数(BTE)波形相比,具有上升相(ASC)的双相去颤波形通过病理和损伤电流引起的心肌损伤更少。
尽管除颤电击可挽救生命,但它们具有显著的医源性影响,从而降低了其对患者生存的益处。
使用 ASC 波形,该波形具有 8ms 的线性斜坡,随后是另外的 0.5ms 衰减部分,其幅度为 20J(ASC 20J)和 25J(ASC 25J)。对照为 25J 的 BTE 常规波形(BTE 25J)。
ASC 20J 和 ASC 25J 电击在 6 头猪中均成功,而 BTE 25J 仅在 14 头猪中成功 6 次(p<0.05)。右心室电极的 post-shock ST 段抬高(损伤电流)在 BTE 25J 时明显高于 ASC 20J 和 ASC 25J。在盲法病理检查中,24 小时后 BTE 25J 引起的出血、炎症、血栓和坏死明显多于 ASC 20J 和 ASC 25J。肌钙蛋白水平在电击后 3、4、5 和 6 小时也明显降低。
除颤电击会引起心肌损伤和坏死的电生理、组织学和生化迹象。与传统的 BTE 波形相比,ASC 波形引起的这些损伤迹象明显更少。
