Exposure to organophosphorus compounds: best practice in managing timely, effective emergency responses.

Increasing indications, reports and studies demonstrate that threats from the deliberate use of chemical weapons remain high and are evolving. One of the deadliest classes of chemical weapons are the organophosphorus nerve agents. It is now clear that both state and non-state actors have the ability to deploy and use these types of weapons against individuals and the wider civilian population posing a real and significant threat. The objective of this article is to provide an overview of the issues impacting on a timely critical response to the accidental or deliberate release of Organophosphorus Nerve Agents in order to enhance the understanding of their effects and provide guidance on how first responders might better treat themselves or victims of exposure through a discussion of available evidence and best practices for rapid skin decontamination. The article also examines use of the current nomenclature of 'wet' and 'dry' to describe different forms of decontamination. One of the key conclusions of this article is that adequate preparedness is essential to ensuring that responders are trained to understand the threat posed by Organophosphorus Nerve Agents as well as how to approach a contaminated environment. A key aspect to achieving this will be to ensure that generic medical countermeasures are forward-deployed and available, preferably within minutes of a contamination and that first responders know how to use them.

Trends in severe opioid-related poisonings and fatalities reported to the Paris poison control center - a 10-year retrospective observational study.

France is experiencing an increase in the number of opioid prescriptions and related fatalities. We carried out a retrospective observational study using data from the Paris PCC over a 10-year period. The main objective was to obtain an epidemiological description of the severe reported cases. The secondary objectives were to assess the evolution of the number of these cases and their severity defined by the use of fentanyl and its derivatives, the use of the opioid-poisoning treatment naloxone, and the number of fatalities. During 2008-2017, 268 511 cases were recorded, including 1 122 cases of opioid-related poisoning that required medical management. These poisonings involved tramadol (43%), codeine (25%), dextropropoxyphene (13%), and morphine (8%); most resulted from self-exposure (60%). During the 10-year study period, 130 opioid-related fatalities were recorded in the Paris area, mainly resulting from suicides (39%) in men and were attributed to morphine (27%), tramadol (24%), and methadone (21%). We did not identify an increase in the number of severe opioid-related poisonings or fatalities or in the use of fentanyl or its derivatives. Conversely, we observed an increase in the use of naloxone, suggesting an increase in the severity of opioid poisonings. Our findings show that, until 2017, the opioid overdose epidemiology in the Paris area is different to that in the USA. The systematic analysis of data from the PCCs could be a good tool for health monitoring. To assess trends in France, a national study over a longer period would also be useful.

Interdependent Factors of Demand-Side Rationale for Chemical, Biological, Radiological, and Nuclear Medical Countermeasures.

The deliberate use of chemical, biological, radiological, and nuclear (CBRN) materials in war or terrorist attacks is perceived as a great threat globally. In the event of a release of CBRN agents, protection by means of medical countermeasures (MedCMs) could reduce health vulnerability. Nonetheless, for some diseases caused by these agents, innovative MedCMs do not exist and many of those that do might not be readily available. Inappropriate research and development funding and government procurement efforts can result in adverse economic consequences (eg, lost income, cost per loss of life, medical expenses) far exceeding the costs of strong and comprehensive preparedness initiatives. By illustrating factors of demand-side rationale for CBRN MedCMs, this article aims to strengthen integrity of policy-making associated with current demand requirements. Namely, an approach to inspire broader assessment is outlined by compiling and adapting existing economic models and concepts to characterize both soft and hard factors that influence demand-side rationale. First, the soft factor context is set by describing the impact of behavioral and political economics. Then, lessons learned from past public health funding models and associated collaborative access infrastructure are depicted to represent hard factors that can enhance the viability of MedCM preparedness evaluations.

Superior efficacy of HI-6 dimethanesulfonate over pralidoxime methylsulfate against Russian VX poisoning in cynomolgus monkeys (Macaca fascicularis).

Organophosphorus nerve agents still represent a serious risk to human health. In the French armed forces, the current emergency treatment against OP intoxications is a fully licensed wet-dry dual-chambered autoinjector (Ineurope ®), that contains pralidoxime methylsulfate (2-PAM) to reactivate inhibited acetylcholinesterase (AChE), atropine sulfate (AS) and avizafone chlorhydrate (AVZ). While this treatment is effective against several of the known nerve agents, it shows little efficacy against the Russian VX (VR), one of the most toxic compounds. HI-6 dimethanesulfonate (HI-6 DMS) is an oxime able to reactivate in vitro and in vivo VR-inhibited AChE. To confirm the superiority of HI-6 DMS towards 2-PAM prior to licensing, we compared the two 3-drug-combinations (HI-6 vs 2-PAM, 33 and 18 mg/kg respectively, equimolar doses; AS/AVZ 0.25/0.175 mg/kg respectively) in VR-poisoned cynomolgus macaques, the model required by the French drug regulatory agency. In parallel we performed HI-6 pharmacokinetics analysis using a one compartment model. A better efficacy of the HI-6 DMS combination was clearly observed: up to 5 LD50 of VR (i.m.), a single administration of the HI-6 DMS combination, shortly after the onset of clinical signs, prevented death of the four intoxicated animals. Conversely 2-PAM only prevented death in one out of three subjects exposed to the same amount of VR. As expected with V agents, reinhibition of blood AChE was observed but without any apparent impact on the clinical recovery of the animals. A single administration of the HI-6 DMS combination was still but partially effective at 15 LD50 of VR, allowing a 50% survival rate.

Electro-behavioral phenotype and cell injury following exposure to paraoxon-ethyl in mice: Effect of the genetic background.

Organophosphorus compounds (OP) are irreversible inhibitors of both central and peripheral cholinesterases (ChE). They still represent a major health issue in some countries as well as a terrorist and military threat. In order to design appropriate medical counter-measures, a better understanding of the pathophysiology of the poisoning is needed. Little to nothing is known regarding the impact of the genetic background on OP-induced seizures and seizure-related cell injury. Using two different mouse strains, Swiss and C57BL/6J, exposed to a convulsing dose of the OP pesticide paraoxon-ethyl (POX), our study focused on seizure susceptibility, especially the occurrence of SE and related mortality. We also evaluated the initial neuropathological response and SE-induced cell injury. Following the administration of 2.4 mg/kg POX, more Swiss mice experienced SE than C57BL/6J (55.6% versus 17.2%) but the duration of their SE, based on EEG recordings, was shorter (64.3 ±â€¯19.5 min versus 180.8 ±â€¯36.8 min). No significant difference was observed between strains regarding mortality (33% versus 14%). In both strains limited cell injury was observed in the medial temporal cortex, the dentate gyrus and the CA3 field without inter-strain differences (Fluorojade C-positive cells/mm2). Conversely, only C57BL/6J mice showed cell injury in the CA1 field. There was no obvious correlation between the number of Fluorojade C-positive cells and the duration of the EEG discharges. Our work suggests some differences between Swiss and C57BL/6J mice and lay ground to further studies on the impact of strains in the development of central nervous system toxicity of OP.

Cognitive and emotional impairments after cutaneous intoxication by CEES (a sulfur mustard analog) in mice.

Cognitive and emotional disorders have been reported in veterans intoxicated with sulfur mustard (SM) a chemical weapon belonging to the category of vesicating agents. However, the intense stress associated with the SM intoxication may render difficult determining the exact role played by SM intoxication itself on the emergence and maintaining of cognitive disorders. Animal's model would allow overcoming this issue. So far, we presently investigated the cognitive and emotional impact of an acute cutaneous intoxication with CEES (2-chloroethyl ethyl sulfide), a SM analog in C57/Bl6 mice. Our study evidenced that up to 5days after a single acute neat CEES skin exposure, compared to controls, mice exhibited i) a significant increase in anxiety-like reactivity in an elevated plus-maze and in an open-field tasks and ii) an alteration of working memory in a sequential alternation task. In contrast, mice submitted to intoxication with a diluted CEES solution or hydrochloric acid (HCl) did not show any memory or emotional impairments. Given that, Our data shows that a single local cutaneous intoxication with neat CEES induced long-lasting cognitive and emotional pejorative effects, in accordance with the epidemiological observations in veterans. Thus, the single acute neat CEES cutaneous intoxication in mice could allow studying the sulfur mustard-induced cognitive and emotional disorders and their further counter-measures.

Modeling and simulation of organophosphate-induced neurotoxicity: Prediction and validation by experimental studies.

Exposure to organophosphorus (OP) compounds, either pesticides or chemical warfare agents, represents a major health problem. As potent irreversible inhibitors of cholinesterase, OP may induce seizures, as in status epilepticus, and occasionally brain lesions. Although these compounds are extremely toxic agents, the search for novel antidotes remains extremely limited. In silico modeling constitutes a useful tool to identify pharmacological targets and to develop efficient therapeutic strategies. In the present work, we developed a new in silico simulator in order to predict the neurotoxicity of irreversible inhibitors of acetyl- and/or butyrylcholinesterase (ChE) as well as the potential neuroprotection provided by antagonists of cholinergic muscarinic and glutamate N-methyl-d-aspartate (NMDA) receptors. The simulator reproduced firing of CA1 hippocampal neurons triggered by exposure to paraoxon (POX), as found in patch-clamp recordings in in vitro mouse hippocampal slices. In the case of POX intoxication, it predicted a preventing action of the muscarinic receptor antagonist atropine sulfate, as well as a synergistic action with the non-competitive NMDA receptor antagonist memantine. These in silico predictions relative to beneficial effects of atropine sulfate combined with memantine were recapitulated experimentally in an in vivo model of POX in adult male Swiss mice using electroencephalic (EEG) recordings. Thus, our simulator is a new powerful tool to identify protective therapeutic strategies against OP central effects, by screening various combinations of muscarinic and NMDA receptor antagonists.

Beneficial effects of a ketamine/atropine combination in soman-poisoned rats under a neutral thermal environment.

Exposure to organophosphorus (OP) compounds, such as pesticides and the chemical warfare agents (soman and sarin), respectively represents a major health problem and a threat for civilian and military communities. OP poisoning may induce seizures, status epilepticus and even brain lesions if untreated. We recently proved that a combination of atropine sulfate and ketamine, a glutamatergic antagonist, was effective as an anticonvulsant and neuroprotectant in mice and guinea-pigs exposed to soman. Since OP exposure may also occur in conditions of heat strain due to climate, wearing of protective gears or physical exercise, we previously demonstrated that ketamine/atropine association may be used in a hot environment without detrimental effects. In the present study, we assess soman toxicity and evaluate the effects of the ketamine/atropine combination on soman toxicity in a warm thermoneutral environment. Male Wistar rats, exposed to 31°C (easily reached under protective equipments), were intoxicated by soman and treated with an anesthetic dose of ketamine combined with atropine sulfate. Body core temperature and spontaneous locomotor activity were continuously monitored using telemetry. At the end of the warm exposure, blood chemistry and brain mRNA expression of some specific genes were measured. In soman-intoxicated animals, metabolic and genic modifications were related to convulsions rather than to soman intoxication by itself. In the warm environment, ketamine/atropine combination did not produce any side-effect on the assessed variables. Furthermore, the ketamine/atropine combination exhibited beneficial therapeutic effects on soman-intoxicated rats such as a limitation of convulsion-induced hyperthermia and of the increase in some blood chemistry markers.

Time course of lewisite-induced skin lesions and inflammatory response in the SKH-1 hairless mouse model.

Data on the toxicity of lewisite (L), a vesicant chemical warfare agent, are scarce and conflicting, and the use of the specific antidote is not without drawbacks. This study was designed to evaluate if the SKH-1 hairless mouse model was suitable to study the L-induced skin injuries. We studied the progression of lesions following exposure to L vapors for 21 days using paraclinical parameters (color, transepidermal water loss (TEWL), and biomechanical measurements), histological assessments, and biochemical indexes of inflammation. Some data were also obtained over 27 weeks. The development of lesions was similar to that reported in other models. The TEWL parameter appeared to be the most appropriate index to follow their progression. Histological analysis showed inflammatory cell infiltration and microvesications at day 1 and a complete wound closure by day 21. Biochemical studies indicated a deregulation of the levels of several cytokines and receptors involved in inflammation. An increase in the quantity of pro-matrix metalloproteinases 2 and 9 was shown as observed in other models. This suggests that the SKH-1 mouse model is relevant for the investigation of the physiopathological process of skin lesions induced by L and to screen new treatment candidates.

Topical efficacy of dimercapto-chelating agents against lewisite-induced skin lesions in SKH-1 hairless mice.

Lewisite is a potent chemical warfare arsenical vesicant that can cause severe skin lesions. Today, lewisite exposure remains possible during demilitarization of old ammunitions and as a result of deliberate use. Although its cutaneous toxicity is not fully elucidated, a specific antidote exists, the British anti-lewisite (BAL, dimercaprol) but it is not without untoward effects. Analogs of BAL, less toxic, have been developed such as meso-2,3-dimercaptosuccinic acid (DMSA) and have been employed for the treatment of heavy metal poisoning. However, efficacy of DMSA against lewisite-induced skin lesions remains to be determined in comparison with BAL. We have thus evaluated in this study the therapeutic efficacy of BAL and DMSA in two administration modes against skin lesions induced by lewisite vapor on SKH-1 hairless mice. Our data demonstrate a strong protective efficacy of topical application of dimercapto-chelating agents in contrast to a subcutaneous administration 1h after lewisite exposure, with attenuation of wound size, necrosis and impairment of skin barrier function. The histological evaluation also confirms the efficacy of topical application by showing that treatments were effective in reversing lewisite-induced neutrophil infiltration. This protective effect was associated with an epidermal hyperplasia. However, for all the parameters studied, BAL was more effective than DMSA in reducing lewisite-induced skin injury. Together, these findings support the use of a topical form of dimercaprol-chelating agent against lewisite-induced skin lesion within the first hour after exposure to increase the therapeutic management and that BAL, despite its side-effects, should not be abandoned.

Treatment of status epilepticus with ketamine, are we there yet?

Status epilepticus (SE), a neurological emergency both in adults and in children, could lead to brain damage and even death if untreated. Generalized convulsive SE (GCSE) is the most common and severe form, an example of which is that induced by organophosphorus nerve agents. First- and second-line pharmacotherapies are relatively consensual, but if seizures are still not controlled, there is currently no definitive data to guide the optimal choice of therapy. The medical community seems largely reluctant to use ketamine, a noncompetitive antagonist of the N-methyl-d-aspartate glutamate receptor. However, a review of the literature clearly shows that ketamine possesses, in preclinical studies, antiepileptic properties and provides neuroprotection. Clinical evidences are scarcer and more difficult to analyze, owing to a use in situations of polytherapy. In absence of existing or planned randomized clinical trials, the medical community should make up its mind from well-conducted preclinical studies performed on appropriate models. Although potentially active, ketamine has no real place for the treatment of isolated seizures, better accepted drugs being used. Its best usage should be during GCSE, but not waiting for SE to become totally refractory. Concerns about possible developmental neurotoxicity might limit its pediatric use for refractory SE.

Ketamine combinations for the field treatment of soman-induced self-sustaining status epilepticus. Review of current data and perspectives.

Organophosphorus nerve agents (NA), potent irreversible cholinesterase inhibitors, could induce severe seizures, status epilepticus (SE), seizure-related brain damage (SRBD) and lethality. Despite the lack of data in the case of NA, clinical evidences suggest that SE survivors could suffer from neurological/cognitive deficits and impairments such as spontaneous recurrent seizures (epilepsy) after a latent period of epileptogenesis. It is beyond doubt that an effective and quick management of the initial seizures and prevention of SRBD are critical to prevent these long-term consequences, explaining why most experimental data are focusing on the 5-40min post-exposure time frame. However, in field conditions, treatment may be delayed and with the exception of NMDA receptor antagonists, currently no drug provides protection (against lethality, seizures, SRBD and neurological consequences) when seizures are left unabated for one hour or more. Ketamine (KET) is the only NMDA antagonist licensed as an injectable drug in different countries and remains an anesthetic of choice in some difficult field conditions. In this short review paper, after a presentation of some of the key points of the pathophysiology of NA-induced SE and a quick survey of the potential therapeutic avenues in the context of delayed treatment of NA-induced SE, we will review the recent data we obtained showing that KET, in combination with atropine sulfate (AS), with or without a benzodiazepine, considerably reduces soman-induced neuroinflammation, provides neuroprotection, histologically and functionally, and also positively modify soman-induced changes in brain metabolism. Finally, we will also mention some results from safety studies including those bringing evidence that, at difference with MK-801, KET does not impair thermoregulation and even seems to reduce AS-induced heat stress. All in all, KET, in combination, appears a good candidate for the out-of-hospital treatment of severe NA-induced SE.

Ketamine does not impair heat tolerance in rats.

Exposure to organophosphorus compounds, either pesticides or chemical warfare agents such as soman or sarin, represents a major health problem. Organophosphorus poisoning may induce seizures, status epilepticus and even brain lesions if untreated. Ketamine, an antagonist of glutamatergic receptors, was recently proved to be effective in combination with atropine sulfate as an anticonvulsant and neuroprotectant in mice and guinea pigs exposed to soman. Organophosphorus exposure may also occur in conditions of contemporary heat exposure. Since both MK-801, a more potent glutamatergic antagonist than ketamine, and atropine sulfate are detrimental for thermoregulation, we evaluated the pathophysiological consequences of ketamine/atropine combinations in a hot environment. Male wistar rats were exposed to 38°C ambient temperature and treated with atropine sulfate and/or ketamine (anesthetic and subanesthetic doses). The abdominal temperature and spontaneous locomotor activity were continuously monitored using telemetry. At the end of heat exposure, blood chemistry and the mRNA expression of some specific genes in the brain were assessed. Unlike MK-801, ketamine did not induce any deleterious effect on thermoregulation in rats. Conversely, atropine sulfate led to heatstroke and depressed the heat-induced blood corticosterone increase. Furthermore, it induced a dramatic increase in Hsp70 and c-Fos mRNA levels and a decrease in IκBα mRNA expression, both suggesting brain aggression. When combined with the anesthetic dose of ketamine, some of the atropine-induced metabolic disturbances were modified. In conclusion, ketamine can be used in hot environment and may even limit some of the biological alterations induced by atropine sulfate in these conditions.