Behavioural and physiological assessments of dimethyl trisulfide treatment for acute oral sodium cyanide poisoning.

Sodium cyanide (NaCN) is a commonly and widely used industrial and laboratory chemical that is highly toxic. Its availability and rapid harmful/lethal effects combine to make cyanide a potential foodborne/waterborne intentional-poisoning hazard. Effective antidotes to cyanide poisoning are currently approved only for intravenous administration. Therefore, an effective cyanide antidote that can be administered intramuscularly in pre-hospital and/or mass-casualty settings is needed. Dimethyl trisulfide (DMTS) is a naturally occurring substance used as a flavour enhancer in foods. DMTS has shown antidotal efficacy in cyanide poisoning and is thought to act as both a sulphur donor and partial methaemoglobin inducer. In this study, an intramuscular injection of DMTS (6.25-200 mg/kg) was given to rats 1 minute after an oral dose of NaCN (98.2 mg/kg; twice the median lethal dose) to test the antidotal efficacy and safety of DMTS treatment. Toxic signs and survival were examined along with behavioural function (up to 30 hour after ingestion) using a previously established operant behavioural model. A large range of DMTS doses (6.25-100 mg/kg) increased survival after oral cyanide poisoning, and the lower DMTS doses (6.25-25 mg/kg) also proved to be behaviourally and physiologically safe. Larger DMTS doses (50-200 mg/kg) produced side effects (ie, inflammation and limping) that were more severe and protracted than those observed at lower DMTS doses. The 25 mg/kg DMTS proved to be the most efficacious (increasing survival from 20% to 75%) and also produced minimal side effects (eg, inflammation) that resolved within 24-72 hour. Thus, DMTS shows promise as an intramuscularly administered cyanide antidote useful for prompt pre-hospital or mass-casualty emergency medical treatment.

Monitoring Dose Response of Cyanide Antidote Dimethyl Trisulfide in Rabbits Using Diffuse Optical Spectroscopy.

INTRODUCTION: Cyanide (CN) poisoning is a serious chemical threat from accidental or intentional exposures. Current CN exposure treatments, including direct binding agents, methemoglobin donors, and sulfur donors, have several limitations. Dimethyl trisulfide (DMTS) is capable of reacting with CN to form the less toxic thiocyanate with high efficiency, even without the sulfurtransferase rhodanese. We investigated a soluble DMTS formulation with the potential to provide a continuous supply of substrate for CN detoxification which could be delivered via intramuscular (IM) injection in a mass casualty situation. We also used non-invasive technology, diffuse optical spectroscopy (DOS), to monitor physiologic changes associated with CN exposure and reversal. METHODS: Thirty-six New Zealand white rabbits were infused with a lethal dose of sodium cyanide solution (20 mg/60 ml normal saline). Animals were divided into three groups and treated with saline, low dose (20 mg), or high dose (150 mg) of DMTS intramuscularly. DOS continuously assessed changes in tissue hemoglobin concentrations and cytochrome c oxidase redox state status throughout the experiment. RESULTS: IM injection of DMTS increased the survival in lethal CN poisoning. DOS demonstrated that high-dose DMTS (150 mg) reversed the effects of CN exposure on cytochrome c oxidase, while low dose (20 mg) did not fully reverse effects, even in surviving animals. CONCLUSIONS: This study demonstrated potential efficacy for the novel approach of supplying substrate for non-rhodanese mediated sulfur transferase pathways for CN detoxification via intramuscular injection in a moderate size animal model and showed that DOS was useful for optimizing the DMTS treatment.

Homicide due to intravenous metallic mercury injection followed by sodium cyanide injection.

We report a case of homicide due to intravenous mercury injection followed by meperidine and sodium cyanide injection. A 35-year-old woman was found dead in bed at home by her husband. Reportedly, she had been sick for more than 5 months. Initial death investigation revealed no evidence of foul play. Her death was believed to be natural. Therefore, her body was buried without an autopsy. Two months after death, her family requested an autopsy because they suspected her physician husband killed her. Her body was exhumed, and an autopsy was performed. Postmortem examination revealed numerous metallic mercury globules in the pulmonary arteries. Toxicological analysis revealed a high concentration of mercury in the tissue samples of the lungs, liver, heart, and kidney. In addition, cyanide and meperidine were also found in the heart and liver. The detailed case history and postmortem examination findings are described.

Visual loss caused by acute cyanide poisoning: a case report.

CONTEXT: Cyanide is considered one of the most lethal poisons, reports on visual changes after acute cyanide poisoning are rare due to a low rate of survival of those having committed suicides. CASE DETAILS: A 30-year-old man developed visual loss in both eyes after inhaling sodium cyanide gas, but nothing abnormal was found in slit lamp microscope and indirect ophthalmoscope examinations 5 months later. In pattern visual evoked potential, the amplitude of P100 wave was apparently decreased. Humphrey perimetry examination and AccuMap multifocal visual evoked potentials objective perimetry showed severe defects of the central visual field. Magnetic resonance imaging revealed abnormal signal changes in bilateral putamen. Results of other examinations, including Farnsworth dichotomous color vision test, optical coherence tomography, retinal nerve fiber layer examination and flash electroretinography, were normal. DISCUSSION: Although magnetic resonance imaging showed no changes in the signal of the visual pathway, clinical features and our test results suggest a possible lesion in the posterior visual pathway.

Occupational cyanide poisoning.

Cyanide poisoning has existed for centuries. In most cases, cyanide is combined with other toxic substances; for example with carbon monoxide in fire smoke. Cases of pure cyanide poisoning are rare, and usually due to accidental exposure. Their treatment is based on oxygenation and the infusion of hydroxocobalamin. The seriousness of this type of poisoning calls for a rapid and specific response, which demonstrates the usefulness of non-hospital based medical treatment. The authors report here the case of a man who was the victim of occupational poisoning with sodium cyanide and who was treated at the workplace by fire-fighters and the Service Mobile d'Urgence et Reanimation emergency ambulance service.

A case of cyanide poisoning and the use of arterial blood gas analysis to direct therapy.

Cyanide poisoning is a difficult diagnosis for health care professionals. Existing reports clearly demonstrate that the initial diagnosis is often missed in surreptitious cases. The signs and symptoms can mimic numerous other disease processes. We report a case in which a suicidal patient ingested cyanide and was found unresponsive by 2 laboratory coworkers. The coworkers employed cardiopulmonary resuscitation with mouth-to-mouth resuscitation. The suicidal patient died shortly after arrival to the hospital, while the 2 coworkers who performed mouth-to-mouth resuscitation presented with signs and symptoms that mimicked early cyanide toxicity but were instead due to acute stress response. An arterial blood gas analysis may help aid in the diagnosis of cyanide toxicity. Electrocardiographic findings in a patient with cyanide poisoning range significantly, depending on the stage of the poisoning.

A novel paradigm for assessing efficacies of potential antidotes against neurotoxins in mice.

Historically, antidotal potencies of cyanide antagonists were measured as increases in the experimental LD(50) for cyanide elicited by the antidotes. This required the use of high doses of cyanide following pre-treatment with the putative antidote. Since IACUC guidelines at our institutions strongly discourage LD(50) determinations: we developed a new test paradigm that allowed for maximal survival of cyanide-treated animals with greatly reduced numbers of animals. Symptoms of cyanide toxicity include disruption of neuromuscular coordination, i.e., the righting reflex. Therefore, to establish a dose-response curve, the times required for recovery of this righting reflex with increasing doses of cyanide were measured. A cyanide dose that disrupted this righting reflex for approximately 1h with minimal deaths was then selected. Using this paradigm, the current cyanide antidotes, viz., nitrite plus thiosulfate and hydroxocobalamin, as well as some potential cyanide antidotes that we developed, were evaluated pre- and post-cyanide. This allowed, for the first time, the assessment of the post-cyanide effectiveness of the current antidotes against cyanide poisoning in a live animal. In addition, some prototype compounds were found to exhibit antidotal efficacy not only when injected i.p. following cyanide, but also when administered orally 30 min before cyanide. Pre-cyanide oral efficacy suggests that such compounds have the potential of being administered prophylactically before exposure to cyanide. This new test paradigm was found to be a powerful tool for assessing the efficacies of some novel antidotes against cyanide and should be equally applicable for evaluating putative antidotes for other neurotoxins.

[Two suicide fatalities from sodium cyanide ingestion: differences in blood biochemistry].

We report a case of two suicide fatalities from sodium cyanide ingestion, which showed differences in pathology and blood biochemistry. The victims were a married couple in their 70 years of age, owners of a gilding factory. They were found dead in their bedroom by a family member. Suicide notes and sodium cyanide powder were found in the room. Autopsy revealed eroded gastric mucosae in both victims. In the male, the stomach showed a previous postoperative state of partial resection, and the lungs were more congested and edematous in the male than in the female. In both victims, cyanide was detected in the blood at markedly high concentrations. In postmortem blood biochemistry, a marked elevation of cardiac troponin T, I and CK-MB was observed in the peripheral blood of the male, whereas there was only a mild elevation in the female. In the male, erythropoietin was also markedly elevated. These observations suggested a difference in the dying process following sodium cyanide ingestion between the victims; survival time may have been longer in the male than the female. The absorption of cyanide may have been a contributory factor to the difference.

Rapid quantitative determination of cyanide in biological fluids from coyotes killed with a coyote getter.

A number of methods for the determination of cyanide in biological fluids have been published. Many are not really rapid or else rely on elaborate specialized equipment. The method reported here is rapid, uses only inexpensive disposable, and produces a quantitative result within 1 minute on as little as a few drops of blood. Cyanide concentrations found by this method in the blood of coyotes killed by sodium cyanide blasted into the mouth with a snub-nosed gun concealed in bait are given and discussed. Cyanide levels in blood from the left ventricle of the heart were always much higher than those from the right ventricle, and concentrations in the right ventricle were always very close to 700 micrograms/L.

A retrospective study of sodium nitroprusside use and assessment of the potential risk of cyanide poisoning.

Sodium nitroprusside (SNP) is an effective vasodilator but is potentially dangerous due to its cyanide content. Infusion rates above 2 micrograms/kg/minute may cause cyanide to accumulate to toxic concentrations in critically ill patients. Coadministration of thiosulfate with SNP effectively and safely prevents cyanide toxicity. This study determined if patients at our institution were treated with SNP infusion rates that could cause cyanide toxicity and whether those patients were administered thiosulfate. We reviewed the charts of 36 critically ill patients treated with SNP during the previous 12 months. In 72% of patients the SNP infusion rates were above 2 micrograms/kg/minute. In 47% the rates were greater than 2 micrograms/kg/minute for 6 hours or more, and in 20% they were greater than 5 micrograms/kg/minute for up to 11 hours. None of the patients was administered thiosulfate. In a significant number of patients the infusion rates of SNP potentially exposed them to significant risk of cyanide toxicity including death.

Estimation of the convulsive effect of cyanide in rats.

Convulsions are frequently observed in severe, acute cyanide intoxication. The mechanisms involved are not well known. In the present study, the convulsive effect of cyanide was examined in the rat by means of a dose threshold determination after infusion of cyanide. An optimal dose rate of 1.80 mg/min./kg was determined. By infusing this optimal dose rate it was possible to divide another cyanide-treated group of rats into two groups: one without and another with convulsions. After the experiment all animals were killed by exposure to high intensity microwave irradiation. Regional dopamine, noradrenaline and main dopamine metabolites were isolated and analyzed using high pressure liquid chromatography and electrochemical detection. Striatal noradrenaline was decreased but dopamine and its metabolites were increased in rats infused with cyanide at the optimal dose rate until the convulsions started. Animals infused with the threshold dose at the optimal dose rate did not show any significant changes in noradrenaline or in dopamine metabolites, but all animals showing convulsions also had increased striatal dopamine levels. Thus changes in dopamine appear to be dependent on convulsions.

Antidotal efficacy of alpha-ketoglutaric acid and sodium thiosulfate in cyanide poisoning.

Alpha-ketoglutaric acid and sodium thiosulfate antagonize the toxic effects of cyanide. The present study was performed to test whether a synergistic effect may occur. The alpha-ketoglutaric acid/sodium thiosulfate solutions were injected intraperitoneally into mice prior to exposure to hydrogen cyanide (HCN) in a dynamic inhalation chamber or preceding an intraperitoneal injection of sodium cyanide (NaCN). All lethal concentration (LCT) and lethal dose (LD) values were determined after a period of 24 h. Alpha-ketoglutaric acid alone provided no protection at 250 mg/kg when challenged with HCN. Sodium thiosulfate 500 mg/kg provided a 5% protection. However, when these doses of alpha-ketoglutaric acid and sodium thiosulfate were combined, protection was increased by 18%. Alpha-ketoglutaric acid (250 mg/kg) and sodium thiosulfate (1000 mg/kg) provided an additional 48% protection against a LCT88 of HCN. A single dose of alpha-ketoglutaric acid (500 mg/kg) and sodium thiosulfate (1000 mg/kg) solutions afforded a 70% increase in survivability of the exposed animals. When mice were injected ip with 100 mg/kg of alpha-ketoglutaric acid 15 min prior to the injection of 5.5 mg/kg (LD50) of NaCN, the lethality was reduced to an LD30. Two hundred mg/kg alpha-ketoglutaric acid, challenged with the same dose of NaCN, reduced the lethality to 23%. When mice were challenged with 6.0 mg/kg of NaCN (LD70) pretreated with 100 mg/kg of alpha-ketoglutaric acid or 200 mg/kg of sodium thiosulfate, the LD was not altered in the former but reduced to an LD15 in the latter. At higher doses of sodium thiosulfate (500 mg/kg), an LD60 occurred at 13.6 mg/kg NaCN (2.5 x LD50).(ABSTRACT TRUNCATED AT 250 WORDS)

Suicidal cyanide ingestion as detailed in Final Exit.

Final Exit is an "informational aid" advocating the practice of active euthanasia and describing the proper method for the foolproof commission of suicide. Although it has been directed toward assisting the terminally ill patient who desires to terminate suffering, it has been suggested that the widespread availability of this book may result in its abuse. Specifically, there is growing concern that "do-it-yourself suicide manuals" could bring about the fruition of suicidal ideations that are relatively common among mentally ill patients and impressionable adolescents. Described is the suicidal ingestion of cyanide by a physically healthy 30-year-old man. His diary, found next to the body, contains a recipe for suicide copied verbatim from Derek Humphry's Final Exit. Although the decedent's history, the scene investigation, and the external examination strongly suggest an underlying psychiatric disorder, postmortem examination disclosed minimal underlying physical disease. This case graphically illustrates the abuse potential of this literary genre. To our knowledge, this is the first case of its kind to appear in the literature. We recommend that forensic pathologists and medical investigators familiarize themselves with the methods of suicide described in Final Exit.

Acute carbon monoxide poisoning in an animal model: the effects of altered glucose on morbidity and mortality.

An animal model in which the common carotid artery and the jugular vein serving one side of the brain are occluded by indwelling catheters has been used during the past few years to investigate acute carbon monoxide (CO) poisoning. This article reviews the recent research examining the pattern of changes in blood glucose concentration which results from CO exposure, and the manner in which altered glucose concentration alters neurologic outcome and mortality. At present it appears that either greatly depressed glucose or greatly elevated glucose during and/or after CO exposure increases morbidity and mortality. Cyanide (CN) poisoning, in contrast to CO, produces a different pattern of changes in blood glucose and lactate, and unlike CO, fails to slow cardiac AV conduction and ventricular repolarization. Through the use of magnetic resonance imaging and spectroscopic techniques, cerebral cortical edema and the changes in brain phosphagens have been assessed following CO poisoning in the rat. The published results as well as data from recent pilot studies are discussed in the light of our current understanding of CO toxicology.

Effects of acute lethal cyanide intoxication on central dopaminergic pathways.

In rats treated with sodium cyanide (NaCN), 20 mg/kg intraperitoneally, the striatal dopamine (DA) level was decreased within 60 sec. compared to controls injected with NaCl 0.9%. Treatment with NaCN also increased the naturally occurring L-DOPA in the striatum, but not in the other brain regions studied. Decreased DA levels but increased L-DOPA accumulation were also seen in cyanide-treated animals after inhibition of neuronal L-aromatic amino decarboxylase. In rats given a non-lethal dose of NaCN, 2.5 mg/kg intraperitoneally, 30 min. before sacrifice and L-DOPA, 100 mg/kg intraperitoneally, 25 min. before sacrifice, regional L-DOPA levels were not significantly changed, but the striatal DA levels were diminished compared to controls. Decreased DA levels might indicate that cyanide inhibits the synthesis of brain DA. However, both increased L-DOPA and increased accumulation of L-DOPA after neuronal decarboxylase were observed after cyanide. Furthermore, we have earlier reported that lethal doses of NaCN decreased the DA metabolite HVA in the striatum but did not significantly change the oxidatively deaminated metabolite of DA, DOPAC. Inhibition of L-aromatic amino acid decarboxylase appears to play a minor role in causing decreased striatal DA levels. However, our findings might be compatible with cyanide-produced inhibition of the energy-demanding granular uptake and/or release of DA.

Clinical and CT scan findings in a case of cyanide intoxication.

A 39-year-old man showed a combination of severe parkinsonism and progressive dystonia following attempted suicide with sodium cyanide. Computed tomography (CT) scan showed bilateral lucencies in the putamen and external globus pallidus. The topography of lesions on CT scan closely correlated with the pathological findings described in a previous report of cyanide-induced parkinsonism. This is the first reported case of cyanide intoxication with delayed-onset dystonia.