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One Poisoning Can Hide Another | OMICS International
ISSN: 2165-7548
Emergency Medicine: Open Access
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One Poisoning Can Hide Another

Fortin JL1*, Desmettre T1, Maillot MC1, Fetro C2 and Capellier G1

1Pole Réanimation- Urgences- Samu, Centre hospitalier régional universitaire Jean Minjoz, 3bd Alexander Fleming, 25 030 Besançon Cedex, France

2Merck Santé, Lyon, France

*Corresponding Author:
Fortin JL
Pole Réanimation- Urgences- Samu
Centre hospitalier régional universitaire Jean Minjoz
3 bd Alexander Fleming, 25 030 Besançon Cedex, France
Tel: 0033663152731
E-mail: [email protected]

Received Date: July 29, 2013; Accepted Date: September 07, 2013; Published Date: September 09, 2013

Citation: Fortin JL, Desmettre T, Maillot MC, Fetro C, Capellier G (2013) One Poisoning Can Hide Another. Emergency Med 3:153. doi:10.4172/2165-7548.1000153

Copyright: © 2013 Fortin JL, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Metabolic; Complications of poisoning; Critical/ intensive care; Fire smoke; Cyanide; Lactate; Hydroxocobalamin

Case Report

In July 2008, in Besancon, France, a 56-year-old homeless man was exposed to smoke for nearly 15 minutes following a building fire.

He presented with burns on both hands, soot on his skin and in his endocavities (mouth, nostrils), and blood pressure of 166/112 mm Hg. The initial electrocardiogram showed no repolarization disorder, only sinus tachycardia recorded at 139 cycles/ min. The patient showed minor neurological signs: he was agitated (Glasgow Coma Scale score of 14) and his respiratory rate was normal (18 breaths/ min).

This patient also presented with carbon monoxide poisoning with a SpCO of 40%, as measured by Masimo Rad-57, therefore norm baric oxygen (2.5 ATA for 12 hours) was immediately administered. Hyperbaric oxygen therapy was first considered but not possible because of the non cooperation of the patient. The actions of carbon monoxide in fire smoke are well known, with victims of smoke inhalation commonly experiencing carbon monoxide poisoning [1].

A first pre-hospital determination of venous lactate was carried out using a portable instrument. This initial venous lactate level was equal to 12.9 mmol/L. The patient was immediately administered 5 g of hydroxocobalamin IV before being transferred to hospital.

Blood gas measurements performed on arrival at the hospital were pH 7.30, pCO2 4.36 kPa, pO2 6.9 kPa, and SpCO 23.6%. The anion gap was 23 mmol/ L (Na+ 136 mmol/L, Cl- 97 mmol/L, HCO3- 16 mmol/L). The immediate determination of blood lactate levels in the context of smoke inhalation in this patient, who presented with carbon monoxide poisoning but without hypotension, justified the strong suspicion of concomitant cyanide intoxication and the administration of antidotal treatment.

In the emergency department, a second determination of venous lactate was carried out (9.42 mmol/L). In view of this persistently high level of lactate, another administration of 5 g of hydroxocobalamin was administered. The administration of 10g of hydroxocobalamin normalised the level of lactates (2.8 mmol/L). The patient improved and was discharged without sequelae.

Venous blood samples were taken to determine blood cyanide levels. In contrast to carbon monoxide, there is no rapid detection method for Hydrogen Cyanide (HCN) in the blood and it is not possible to have cyanide poisoning confirmed at the scene of a fire. Three determinations of blood cyanide levels were carried out, which retrospectively confirmed severe cyanide poisoning: the first cyanide reading was high, equal to 3,049 μg/L (the LC 50 of cyanide is 2,500 μg/L). The two other cyanide levels, after 5 g and 10 g of hydroxocobalamin were 688 μg/L and 136 μg/L respectively, which demonstrates the efficacy of the antidotal treatment (Figure 1).


Figure 1: Correlation between blood lactate and cyanide levels.

There is a significant correlation between blood cyanide concentrations and venous lactate in fire victims as shown by Baud et al. [2,3] Lactate concentrations above 10 mmol/L are a sensitive indicator of cyanide poisoning in these specific conditions. More recently, a group of European experts has proposed emergency management protocols for cyanide toxicity in smoke inhalation victims using serial lactate measurements [4].

While cyanide measurements made it possible to confirm cyanide poisoning retrospectively, repeated determinations of blood lactate levels made it possible to direct antidotal treatment. The correlation between lactate levels and hydroxocobalamin efficacy showed that it was necessary to repeat the administration of the antidote after the starting dose of 5 g of hydroxocobalamin.


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