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本文引用的文献

1
Methanethiol poisoning. Irreversible coma and hemolytic anemia following inhalation.甲硫醇中毒。吸入后出现不可逆昏迷和溶血性贫血。
JAMA. 1970 Mar 30;211(13):2153-4. doi: 10.1001/jama.211.13.2153.

羟钴胺静脉注射治疗猪重度甲硫醇中毒模型(Sus scrofa)中甲硫醇钠暴露的疗效。

Efficacy of Intravenous Hydroxocobalamin for Treatment of Sodium Methanethiolate Exposure in a Swine Model (Sus scrofa) of Severe Methanethiol Toxicity.

机构信息

59th MDW, U.S. Air Force En route Care Research Center, U.S. Army Institute of Surgical Research, 3698 Chambers Pass, Bldg. 3610, JBSA Fort Sam Houston, TX, USA.

Rocky Mountain Poison and Drug Center, Denver Health and Hospital Authority, Denver, CO, USA.

出版信息

J Med Toxicol. 2020 Oct;16(4):388-397. doi: 10.1007/s13181-020-00767-7. Epub 2020 Apr 1.

DOI:10.1007/s13181-020-00767-7
PMID:32239422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7554292/
Abstract

INTRODUCTION

Methanethiol is a highly toxic chemical present in crude oil and natural gas. At high concentrations, methanethiol causes metabolic acidosis, seizures, myocardial infarction, coma, and death. Occupational Health and Safety Administration lists methanethiol as a potential terrorist weapon. Methanethiol blocks the electron transport chain, resulting in lactic acidosis and acidemia. There is no specific treatment for methanethiol. Our objective was to measure the efficacy of intravenous (IV) hydroxocobalamin (HOC) versus no treatment (control) in methanethiol-induced apnea in a swine model.

METHODS

Sixteen anesthetized swine received IV sodium methanethiolate to apnea and were randomized to receive either IV HOC or no treatment. Physiologic and laboratory parameters were monitored throughout the study. Power analysis indicated that 8 animals per group would be sufficient to find a moderate effect (f = 0.24) with 2 groups, α = 0.05, and 80% power.

RESULTS

Both groups were similar in baseline characteristics. Following treatment, the HOC group had significantly higher heart rate and blood pressure at 5-10 minutes post-apnea, higher systemic vascular resistance at 5 minutes post-apnea, higher tidal volume, higher end-tidal carbon dioxide, and lower end-tidal oxygen 10-15 minutes post-apnea compared with controls. None of the animals survived to the end of the study (60 minutes). The Kaplan-Meier survival curves were significantly different between cohorts (log-rank p = 0.0321), with the HOC group surviving longer than controls (32.4 ± 7.3 vs. 25.8 ± 1.0 minutes).

CONCLUSIONS

In our model of intravenous methanethiolate poisoning, IV HOC administration resulted in a transient improvement in vital signs and prolonged time to death; however, it did not improve survival.

摘要

简介

甲硫醇是一种存在于原油和天然气中的剧毒化学物质。在高浓度下,甲硫醇会导致代谢性酸中毒、癫痫发作、心肌梗死、昏迷和死亡。职业安全与健康管理局将甲硫醇列为潜在的恐怖武器。甲硫醇会阻断电子传递链,导致乳酸酸中毒和酸血症。目前尚无针对甲硫醇的特定治疗方法。我们的目的是测量静脉内(IV)羟钴胺(HOC)与无治疗(对照组)在猪模型中甲硫醇诱导窒息中的疗效。

方法

16 头麻醉猪接受 IV 甲硫醇盐至窒息,并随机接受 IV HOC 或无治疗。整个研究过程中监测生理和实验室参数。功效分析表明,每组 8 只动物足以发现中等效果(f=0.24),2 组,α=0.05,80%功效。

结果

两组在基线特征上相似。治疗后,HOC 组在窒息后 5-10 分钟时心率和血压显著升高,在窒息后 5 分钟时全身血管阻力升高,潮气量升高,呼气末二氧化碳升高,10-15 分钟时呼气末氧分压降低与对照组相比。没有动物存活到研究结束(60 分钟)。Kaplan-Meier 生存曲线在队列之间有显著差异(对数秩 p=0.0321),HOC 组的存活时间长于对照组(32.4±7.3 分钟 vs. 25.8±1.0 分钟)。

结论

在我们的静脉内甲硫醇盐中毒模型中,静脉内 HOC 给药导致生命体征短暂改善并延长死亡时间;然而,它并没有提高存活率。