Soman-induced toxicity, cholinesterase inhibition and neuropathology in adult male Göttingen minipigs.

Animal models are essential for evaluating the toxicity of chemical warfare nerve agents (CWNAs) to extrapolate to human risk and are necessary to evaluate the efficacy of medical countermeasures. The Göttingen minipig is increasingly used for toxicological studies because it has anatomical and physiological characteristics that are similar to those of humans. Our objective was to determine whether the minipig would be a useful large animal model to evaluate the toxic effects of soman (GD). We determined the intramuscular (IM) median lethal dose (LD50) of GD in adult male Göttingen minipigs using an up-and-down dosing method. In addition to lethality estimates, we characterized the observable signs of toxicity, blood and tissue cholinesterase (ChE) activity and brain pathology following GD exposure. The 24 h LD50 of GD was estimated to be 4.7 µg/kg, with 95 % confidence limits of 3.6 and 6.3 µg/kg. As anticipated, GD inhibited ChE activity in blood and several tissues. Neurohistopathological analysis showed neurodegeneration and neuroinflammation in survivors exposed to 4.7 µg/kg of GD, including in the primary visual cortex and various thalamic nuclei. These findings suggest that the minipig will be a useful large animal model for assessing drugs to mitigate neuropathological effects of exposure to CWNAs.

Intramuscularly administered A1 adenosine receptor agonists as delayed treatment for organophosphorus nerve agent-induced Status Epilepticus.

Exposure to organophosphorus nerve agents (NAs) like sarin (GB) and soman (GD) can lead to sustained seizure activity, or status epilepticus (SE). Previous research has shown that activation of A1 adenosine receptors (A1ARs) can inhibit neuronal excitability, which could aid in SE termination. Two A1AR agonists, 2-Chloro-N6-cyclopentyladenosine (CCPA) and N-Bicyclo(2.2.1)hept-2-yl-5'-chloro-5'-deoxyadenosine (ENBA), were effective in terminating GD-induced SE in rats when administered via intraperitoneal (IP) injection. However, IP injection is not a clinically relevant route of administration. This study evaluated the efficacy of these agonists in terminating NA-induced SE when administered via intramuscular (IM) route. Adult male rats were exposed subcutaneously (SC) to either GB (150 µg/kg) or GD (90 µg/kg) and were treated with ENBA or CCPA at 15, 30, or 60 min after seizure onset or left untreated. Up to 7 days after exposure, deeply anesthetized rats were euthanized and perfused brains were removed for histologic assessment of neuropathology (i.e., neuronal damage) in six brain regions (amygdala, cerebral cortex, piriform cortex, thalamus, dorsal hippocampus, and ventral hippocampus). A total neuropathy score (0-24) was determined for each rat by adding the scores from each of the six regions. The higher the total score the more severe the neuropathology. With the GB model and 60 min treatment delay, ENBA-treated rats experienced 78.6% seizure termination (N = 14) and reduced neuropathology (11.6 ± 2.6, N = 5), CCPA-treated rats experienced 85.7% seizure termination (N = 14) and slightly reduced neuropathology (20.7 ± 1.8, N = 6), and untreated rats experienced no seizure termination (N = 13) and severe neuropathology (22.3 ± 1.0, N = 4). With the GD model and 60 min treatment delay, ENBA-treated rats experienced 92.9% seizure termination (N = 14) and reduced neuropathology (13.96 ± 1.8, N = 9), CCPA-treated rats experienced 78.6% seizure termination (N = 14) and slightly reduced neuropathology (22.0 ± 0.9, N = 10); and untreated rats experienced 16.7% seizure termination (N = 12) and severe neuropathology (22.0 ± 1.8, N = 5). While ENBA and CCPA both demonstrate a clear ability to terminate SE when administered up to 60 min after seizure onset, ENBA offers more neuroprotection, making it a promising candidate for NA-induced SE.

Impairment of wound healing by reactive skin decontamination lotion (RSDL®) in a Göttingen minipig® model.

Reactive Skin Decontamination Lotion (RSDL®) is an FDA-approved skin decontamination kit carried by service members for removal and neutralisation of vesicants and nerve agents. The RSDL kit, comprised of a lotion-impregnated sponge, was shown to be the superior medical decontamination device for chemical warfare agent (CWA) exposure on intact skin. In the event of a chemical exposure situation (i.e. terrorism, battlefield) physical injuries are probable, and preservation of life will outweigh the risk associated with application of RSDL to compromised skin. The purpose of this study was to quantify the rate and quality of wound healing in epidermal skin wounds treated with RSDL in a porcine model. Degree of wound healing was assessed using bioengineering methods to include ballistometry, colorimetry, evaporimetry, and high-frequency ultrasonography. Clinical observation, histopathology and immunohistochemistry were also utilised. All pigs received four bilateral superficial abdominal wounds via a pneumatic dermatome on their ventral abdomen, then were treated with the following dressings over a seven-day period: RSDL sponge, petroleum based Xeroform® gauze, 3 M™ Tegaderm™ Film, and 3 M™ Tegaderm™ Foam. Two additional non-wounded sites on the flank were used as controls. Two groups of pigs were then evaluated for a 21- or 56-day time period, representing short- and long-term wound-healing progression. Our findings indicated RSDL had a negative impact on wound-healing progression at both 21 and 56 days post-injury. Wounds receiving RSDL demonstrated a decreased skin elasticity, significant transepidermal water loss, and altered skin colouration and thickness. In addition, the rate of wound healing was delayed, and return to a functional skin barrier was altered when compared to non-RSDL-treated wounds. In conclusion, wound management care and clinical therapeutic intervention plans should be established to account for a prolonged duration of healing in patients with RSDL-contaminated wounds.

Evaluation of fosphenytoin, levetiracetam, and propofol as treatments for nerve agent-induced seizures in pediatric and adult rats.

Multiple recent instances of nerve agent (NA) exposure in civilian populations have occurred, resulting in a variety of negative effects and lethality in both adult and pediatric populations. Seizures are a prominent effect of NAs that can result in neurological damage and contribute to their lethality. Current anticonvulsant treatments for NAs are approved for adults, but no approved pediatric treatments exist. Further, the vast majority of NA-related research in animals has been conducted in adult male subjects. There is a need for research that includes female and pediatric populations in testing. In this project, adult and pediatric male and female rats were challenged with sarin or VX and then treated with fosphenytoin, levetiracetam, or propofol. In this study, fosphenytoin and levetiracetam failed to terminate seizure activity when animals were treated 5 min after seizure onset. Propofol was effective, exhibiting high efficacy and potency for terminating seizure activity quickly in pediatric and adult animals, suggesting it may be an effective anticonvulsant for NA-induced seizures in pediatric populations.

Evaluation of first-line anticonvulsants to treat nerve agent-induced seizures and prevent neuropathology in adult and pediatric rats.

Risk exists for civilian exposure to nerve agents (NA), and exposure can produce prolonged seizures. Pediatric populations are at greater risk for injury or death due to the central nervous system effects of NAs. To address the need to evaluate the effectiveness of anticonvulsants, pediatric and adult animal models were established to test the effectiveness of anticonvulsant drugs for treating NA-induced seizures in pediatric populations. In this paper, median effective dose (ED50) and neuroprotective effectiveness were determined for the first-line anticonvulsant treatments diazepam and midazolam in pediatric and adult rats against sarin- and VX-induced seizures. Comparisons between treatments were made across postnatal days (PND) 21, 28, and 70 in rats of both sexes. We observed high efficacy and potency of midazolam and diazepam, with low variation in doses across the ages or sexes. These data are important for informing adult and pediatric dosing recommendations for NA-induced seizures.