A comparison of the potency of a novel bispyridinium oxime K203 and currently available oximes (obidoxime, HI-6) to counteract the acute neurotoxicity of sarin in rats.

The neuroprotective effects of a newly developed oxime K203 and currently available oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with sarin were studied. The sarin-induced neurotoxicity was monitored using a functional observatory battery at 2 hr after sarin challenge. The results indicate that the potency of a novel bispyridinium oxime K203 to counteract sarin-induced neurotoxicity is relatively low and roughly corresponds to the neuroprotective efficacy of obidoxime. Among tested oximes, the oxime HI-6 seems to be significanlty more efficacious to counteract acute neurotoxicity of sarin than commonly used obidoxime and a newly developed oxime K203. Thus, the oxime K203 does not provide any beneficial effect for the antidotal treatment of acute poisoning with sarin in comparison with the oxime HI-6 that should be considered to be the best oxime for antidotal treatment of acute sarin poisonings.

Correlation of therapeutic effect of obidoxime and dosing time in the acute intoxication by chlorfenvinphos in rats.

The ability of obidoxime with atropine and diazepam mixture to reactivate acetylcholinesterase inhibited by the organophosphorus compound chlorfenvinphos was compared in the central nervous system and peripheral tissues of rats. The animals were intoxicated with chlorfenvinphos (6 mg/kg, p.o.) and treated immediately, 24 and 48 hrs later with obidoxime (50 mg/kg, i.p.), atropine (10 mg/kg, i.p.), and diazepam (10 mg/kg, i.p.) in a single dose, or in various combinations (with 2-3 drugs) simultaneously. Total tissue acetylcholinesterase activities were monitored at 2, 72, and 168 hrs after intoxication. Enzyme activity was determined using Ellman's colorimetric method. The results of the present study show that obidoxime administered separately and jointly with atropine and diazepam 24 hrs after intoxication was effective on reactivation of chlorfenvinphos-inhibited acetylcholinesterase in the central nervous system and in the peripheral tissues. However, the application of obidoxime alone or in combination with atropine and diazepam 48 hrs after chlorfenvinphos intoxication caused an increased unfavourable effect in rats. The results obtained also indicate an unfavourable interaction of obidoxime with diazepam in the course of chlorfenvinphos poisoning, when antidotes were administered immediately, 24 and 48 hrs after intoxication.

Oxime therapy and outcomes in human organophosphate poisoning: an evaluation using meta-analytic techniques.

OBJECTIVE: The status of oximes in human organophosphate poisoning is controversial. This analysis compares the outcomes of therapy with or without oximes. DESIGN: Quantitative analysis using meta-analytic techniques. METHODS: Controlled trials of oximes in human organophosphate poisoning were identified by search of MEDLINE and TOXLINE (1966 to May 2005) and review of published articles. MEASUREMENTS AND MAIN RESULTS: Of the 3,122 articles on organophosphate poisoning identified by electronic search, 116 related to oxime use in human organophosphate poisoning. Seven trials, including two randomized controlled trials, compared oximes with standard medical care. Varying dosage schedules of pralidoxime or obidoxime were used. The effects of oxime therapy on mortality rate, mechanical ventilation, incidence of intermediate syndrome, and need for intensive care therapy were analyzed and expressed as risk difference (positive values indicating oxime harm). The random effects estimator was reported because of underlying heterogeneity of treatment effects between study types. No statistically significant association of oxime therapy was demonstrated for either mortality (risk difference 0.09, 95% confidence interval -0.08 to 0.27), ventilatory requirements (risk difference 0.16, 95% confidence interval -0.07 to 0.38), or the incidence of intermediate syndrome (risk difference 0.16, 95% confidence interval -0.12 to 0.45), although point estimates of effect suggested harm. An increased need for intensive care therapy (risk difference 0.19, 95% confidence interval 0.01 to 0.36) was apparent with oxime therapy. CONCLUSIONS: Based on the current available data on human organophosphate poisoning, oxime was associated with either a null effect or possible harm. The lack of current prospective randomized controlled trials, with appropriate patient stratification, mandates ongoing assessment of the role of oximes in organophosphate poisoning.

Side effects of therapeutic drugs against organophosphate poisoning.

The possible side effects of therapeutic drugs against organophosphate poisoning were investigated. First, dose-effect curves were obtained with atropine sulphate (AS), P2S, obidoxime, aprophen, N-methylatropine nitrate and HI-6. The first three drugs are currently used in the therapy of organophosphate poisoning, the others are potentially useful candidates. Automated tests measuring open field behavior, motor coordination and shuttlebox performance, as well as neurophysiological techniques such as the quantified EEG (qEEG) and visual evoked responses were used. The sign-free doses of these compounds were determined; it appeared that open field behavior and the qEEG were the most sensitive methods for these drugs. Subsequently, these two methods were used to investigate the effects of the combinations of AS and P2S, AS and obidoxime or AS and HI-6, each compound given in a sign-free dose. Synergistic or additive effects were found with the combination of AS and P2S, which were smaller with the combination of AS and obidoxime and absent with the combination of AS and HI-6. These results indicate that the untimely use (false alarm, panic) of the current drug combinations may cause undesirable side effects.

Administration of obidoxime tablets to man. Plasma levels and side reactions.

Twenty-four male volunteers were given obidoxime tablets in quantities ranging from 1.84-3.58 g in a single dose, or 7.36 g divided into 4 equal doses. With the lowest dose, average peak plasma level of the drug was 1.9 mug/ml and after the highest single dose it was 5.6 mug/ml, both attained 1.5 h after administration. In the multiple-dosed individuals, plasma levels of the oxime increased gradually following each additional dose, reaching a peak of 3.5 mug/ml after the last dose. Thirteen individuals complained of one or more of the following side effects: pallor, nausea, pyrosis, headache, generalized weakness, sore throat, and paresthesia of the face muscles. Activities of blood cholinesterase, glutamic oxalacetic transaminase, glutamic pyruvic transaminase, as well as hematocrit values, heart rate, and blood pressure were not affected. It is postulated that due to the undesirable side effects, the general use of obidoxime tablets should not be recommended. However, prophylactic oral treatment with obidoxime could be considered for persons at high risk of organophosphate poisoning or when parenteral administration might not be feasible.