Efficacy of the antinicotinic compound MB327 against soman poisoning - Importance of experimental end point.

Medical countermeasures for acute poisoning by organophosphorus nerve agents are generally assessed over 24h following poisoning and a single administration of treatment. At 24h, the antinicotinic bispyridinium compound MB327 (1,10-(propane-1,3-diyl)bis(4-tert-butylpyridinium)) dimethanesulfonate is as effective as the oxime HI-6 against poisoning by soman, when used as part of a treatment containing atropine and avizafone. In this study, we hypothesised that an earlier endpoint, at 6h, would be more appropriate for the pharmacokinetics and mechanism of action of MB327 and would therefore result in improved protection. MB327 diiodide (33.8mg/kg) or the oxime HI-6 DMS (30mg/kg), in combination with atropine and avizafone (each at 3mg/kg) was administered intramuscularly to guinea pigs 1min following subcutaneous soman and the LD50 of the nerve agent was determined at 6h after poisoning for each treatment. The treatment containing HI-6 gave a similar level of protection at 6h as previously determined at 24h (protection ratios 3.9 and 2.9, respectively). In contrast, the protection achieved by treatment containing MB327 showed a striking increase at 6h (protection ratio >15.4) compared to the 24h end point (protection ratio 2.8). The treatment gave full protection for at least 5h against doses of soman up to 525µg/kg; in contrast, mortality began in animals treated with HI-6 after 1h. This study demonstrates the importance of using an appropriate end point and has shown that treatment including MB327 was far superior to oxime-based treatment for poisoning by soman, when assessed over a pharmacologically-relevant duration. The improved outcome was seen following a single dose of treatment: it is possible that additional doses to maintain therapeutic plasma concentrations would further increase survival time. Antinicotinic compounds therefore offer a promising addition to treatment, particularly for rapidly aging or oxime-insensitive nerve agents.

Bioscavenger is effective as a delayed therapeutic intervention following percutaneous VX poisoning in the guinea-pig.

The prolonged systemic exposure that follows skin contamination with low volatility nerve agents, such as VX, requires treatment to be given over a long time due to the relatively short half-lives of the therapeutic compounds used. Bioscavengers, such as butyrylcholinesterase (BChE), have been shown to provide effective post-exposure protection against percutaneous nerve agent when given immediately on signs of poisoning and to reduce reliance on additional treatments. In order to assess the benefits of administration of bioscavenger at later times, its effectiveness was assessed when administration was delayed for 2h after the appearance of signs of poisoning in guinea-pigs challenged with VX (4×LD50). VX-challenged animals received atropine, HI-6 and avizafone on signs of poisoning and 2h later the same combination with or without bioscavenger. Five out of 6 animals which received BChE 2h after the appearance of signs of poisoning survived to the end of the study at 48h, compared with 6 out of 6 which received BChE immediately on signs. All the animals (n=6+6) that received only MedCM, without the addition of BChE, died within 10h of poisoning. The toxicokinetics of a sub-lethal challenge of percutaneous VX were determined in untreated animals. Blood VX concentration peaked at approximately 4h after percutaneous dosing with 0.4×LD50; VX was still detectable at 36h and had declined to levels below the lower limit of quantification (10pg/mL) by 48h in 7 of 8 animals, with the remaining animal having a concentration of 12pg/mL. These studies confirm the persistent systemic exposure to nerve agent following percutaneous poisoning and demonstrate that bioscavenger can be an effective component of treatment even if its administration is delayed.