利多卡因对开胸犬除颤阈值与易损性上限关系的影响。
Effects of lidocaine on relation between defibrillation threshold and upper limit of vulnerability in open-chest dogs.
作者信息
Topham S L, Cha Y M, Peters B B, Chen P S
机构信息
Department of Medicine, University of California San Diego Medical Center 92103-8411.
出版信息
Circulation. 1992 Mar;85(3):1146-51. doi: 10.1161/01.cir.85.3.1146.
BACKGROUND
The purpose of the present study was to test the effects of lidocaine on the relation between the defibrillation threshold and the upper limit of vulnerability.
METHODS AND RESULTS
The shock strength associated with a 50% probability of successful defibrillation (DFT50) and the shock strength associated with a 50% probability of reaching the upper limit of vulnerability (ULV50) were determined in 11 open-chest dogs by using the delayed up-down method before and during lidocaine (seven dogs) or normal saline (four dogs) infusion. The ventricles were paced at a cycle length of 300 msec. Shocks of various strengths were then given via a patch-patch electrode configuration on the anterior and posterior surfaces of the ventricle to determine the ULV50. Once ventricular fibrillation was induced, shocks were given 15-20 seconds later via the same electrode configuration to determine the DFT50. Lidocaine infusion resulted in a serum level of 15 +/- 4 micrograms/ml. This was associated with a lengthening of the QT interval but not with the widening of the QRS complex. In all dogs, both the ULV50 and the DFT50 increased significantly when tested during lidocaine infusion. Mean ULV50 during lidocaine infusion was 496 +/- 70 V or 13.1 +/- 4.3 J, which were significantly higher than the baseline values of 333 +/- 67 V or 5.3 +/- 2.2 J (p less than 0.001 for both voltage and energy). Mean DFT50 during lidocaine infusion was 407 +/- 41 V or 8.7 +/- 1.7 J, which were significantly higher than the baseline values of 300 +/- 38 V and 4.4 +/- 1.1 J (p = 0.004 for voltage and p = 0.013 for energy). The r values between the ULV50 and the DFT50 were 0.79 (p = 0.037) for voltage and 0.80 (p = 0.030) for energy at baseline and 0.85 (p = 0.016) for voltage and 0.88 (p = 0.009) for energy during the lidocaine infusion. However, the increments of the ULV50 (163 +/- 88 V or 7.8 +/- 4.6 J) were significantly greater than the increments of the DFT50 (107 +/- 51 V or 4.4 +/- 1.9 J, p = 0.035 for voltage and p = 0.023 for energy). Normal saline infusion did not alter DFT50 or ULV50.
CONCLUSIONS
Lidocaine infusion significantly increases both ULV50 and DFT50. These results are compatible with the upper limit of vulnerability hypothesis of defibrillation. However, the greater increase of the upper limit of vulnerability than the defibrillation threshold with lidocaine infusion indicates that other factors may also need to be considered to explain the results.
背景
本研究的目的是测试利多卡因对除颤阈值与易损性上限之间关系的影响。
方法与结果
采用延迟上下法,在11只开胸犬身上,于输注利多卡因(7只犬)或生理盐水(4只犬)之前及期间,测定与50%成功除颤概率相关的电击强度(DFT50)以及与50%达到易损性上限概率相关的电击强度(ULV50)。心室以300毫秒的周期长度进行起搏。然后通过置于心室前后表面的贴片-贴片电极配置给予不同强度的电击,以确定ULV50。一旦诱发室颤,15 - 20秒后通过相同电极配置给予电击以确定DFT50。输注利多卡因导致血清水平达到15±4微克/毫升。这与QT间期延长相关,但与QRS波群增宽无关。在所有犬中,输注利多卡因期间进行测试时,ULV50和DFT50均显著增加。利多卡因输注期间的平均ULV50为496±70伏或13.1±4.3焦耳,显著高于基线值333±67伏或5.3±2.2焦耳(电压和能量p值均小于0.001)。利多卡因输注期间的平均DFT50为407±41伏或8.7±1.7焦耳,显著高于基线值300±38伏和4.4±1.1焦耳(电压p = 0.004,能量p = 0.013)。基线时,ULV50与DFT50之间的r值,电压为0.79(p = 0.037),能量为0.80(p = 0.030);利多卡因输注期间,电压为0.85(p = 0.016),能量为0.88(p = 0.009)。然而,ULV50的增量(163±88伏或7.8±4.6焦耳)显著大于DFT50的增量(107±51伏或4.4±1.9焦耳,电压p = 0.035,能量p = 0.023)。输注生理盐水未改变DFT50或ULV50。
结论
输注利多卡因显著增加ULV50和DFT50。这些结果与除颤的易损性上限假说相符。然而,利多卡因输注后易损性上限的增加幅度大于除颤阈值,这表明可能还需要考虑其他因素来解释这些结果。
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