高剂量羟钴胺素在 H2S 暴露后给药可对抗硫化物中毒引起的绵羊心脏抑制。
High-dose hydroxocobalamin administered after H2S exposure counteracts sulfide-poisoning-induced cardiac depression in sheep.
机构信息
Division of Pulmonary and Critical Medicine, Pennsylvania State University College of Medicine , Hershey, PA , USA.
出版信息
Clin Toxicol (Phila). 2015 Jan;53(1):28-36. doi: 10.3109/15563650.2014.990976.
CONTEXT
Severe H2S poisoning leads to death by rapid respiratory and cardiac arrest, the latter can occur within seconds or minutes in severe forms of intoxication.
OBJECTIVES
To determine the time course and the nature of H2S-induced cardiac arrest and the effects of high-dose hydroxocobalamin administered after the end of sulfide exposure.
MATERIALS AND METHODS
NaHS was infused in 16 sedated mechanically ventilated sheep to reach concentrations of H2S in the blood, which was previously found to lead to cardiac arrest within minutes following the cessation of H2S exposure. High-dose hydroxocobalamin (5 g) or saline solution was administered intravenously, 1 min after the cessation of NaHS infusion.
RESULTS
All animals were still alive at the cessation of H2S exposure. Three animals (18%) presented a cardiac arrest within 90 s and were unable to receive any antidote or vehicle. In the animals that survived long enough to receive either hydroxocobalamin or saline, 71% (5/7) died in the control group by cardiac arrest within 10 min. In all instances, cardiac arrest was the result of a pulseless electrical activity (PEA). In the group that received the antidote, intravenous injection of 5 g of hydroxocobalamin provoked an abrupt increase in blood pressure and blood flow; PEA was prevented in all instances. However, we could not find any evidence for a recovery in oxidative metabolism in the group receiving hydroxocobalamin, as blood lactate remained elevated and even continued to rise after 1 h, despite restored hemodynamics. This, along with an unaltered recovery of H2S kinetics, suggests that hydroxocobalamin did not act through a mechanism of H2S trapping.
CONCLUSION
In this sheep model, there was a high risk for cardiac arrest, by PEA, persisting up to 10 min after H2S exposure. Very high dose of hydroxocobalamin (5 g), injected very early after the cessation of H2S exposure, improved cardiac contractility and prevented PEA.
背景
严重的 H2S 中毒会导致呼吸和心脏骤停而死亡,后者在严重中毒的情况下可能在几秒钟或几分钟内发生。
目的
确定 H2S 诱导的心脏骤停的时间过程和性质,以及在硫化物暴露结束后给予大剂量羟钴胺的效果。
材料和方法
在 16 只镇静机械通气的绵羊中输注 NaHS,以达到血液中 H2S 浓度,先前的研究发现,在停止 H2S 暴露后几分钟内,该浓度会导致心脏骤停。在停止 NaHS 输注 1 分钟后,静脉内给予大剂量羟钴胺(5g)或生理盐水。
结果
所有动物在停止 H2S 暴露时仍存活。3 只动物(18%)在 90 秒内出现心脏骤停,无法接受任何解毒剂或载体。在存活时间足够长以接受羟钴胺或生理盐水的动物中,71%(5/7)在 10 分钟内因心脏骤停而死亡。在所有情况下,心脏骤停都是无脉性电活动(PEA)的结果。在接受解毒剂的组中,静脉注射 5g 羟钴胺会引起血压和血流的突然增加;在所有情况下都预防了 PEA。然而,我们无法在接受羟钴胺的组中发现任何氧化代谢恢复的证据,因为血液乳酸盐仍然升高,甚至在 1 小时后仍继续升高,尽管血液动力学恢复正常。这与 H2S 动力学恢复不变一起表明,羟钴胺没有通过 H2S 捕获的机制起作用。
结论
在这种绵羊模型中,在 H2S 暴露结束后长达 10 分钟,存在 PEA 持续存在的心脏骤停高风险。在 H2S 暴露结束后非常早期给予非常大剂量的羟钴胺(5g)可改善心肌收缩力并预防 PEA。
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