A comparison of the potency of newly developed oximes (K074, K075) and currently available oximes (obidoxime, HI-6) to counteract soman-induced neurotoxicity in rats

The neuroprotective effects of newly developed oximes (K074, K075) and currently available oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with soman were studied. The soman-induced neurotoxicity was monitored using a functional observational battery at 24 h and 7 days after soman challenge. The results indicate that the oxime HI-6 combined with atropine seems to be an effective antidote for a decrease in soman-induced neurotoxicity, whereas the ability of both newly developed oximes (K074, K075) as well as obidoxime to counteract soman-induced acute neurotoxicity is negligible. Due to the absence of their neuroprotective potency, both newly developed oximes are not suitable oximes for antidotal treatment after exposure to soman. The oxime HI-6 is still the best acetylcholinesterase reactivator for the antidotal treatment of acute poisonings with soman.     

The evaluation of neuroprotective efficacy of newly developed oximes (K074, K075) and currently available oximes (obidoxime, HI-6) in cyclosarin-poisoned rats

The neuroprotective effects of newly developed oximes (K074, K075) and currently available oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with cyclosarin were studied. The cyclosarin-induced neurotoxicity was monitored using a functional observational battery at 24 h and 7 days following cyclosarin challenge. The results indicate that the oxime HI-6 combined with atropine seems to be the most effective antidote for a decrease in cyclosarin-induced neurotoxicity. Both newly developed oximes (K074, K075) as well as obidoxime are also able to counteract cyclosarin-induced acute neurotoxicity, but their neuroprotective potency is significantly lower compared with the oxime HI-6. Therefore, the oxime HI-6 is still the most suitable oxime for the antidotal treatment of acute poisonings with cyclosarin due to its neuroprotective as well as reactivating efficacy.     

A comparison of the potency of newly developed oximes (K074, K075) and commonly used oximes (obidoxime, HI-6) to counteract tabun-induced neurotoxicity in rats

The neuroprotective effects of newly developed oximes (K074, K075) and currently available oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with tabun at a sublethal dose (180 micro g/kg i.m.; 80% LD(50)) were studied. The tabun-induced neurotoxicity was monitored using a functional observational battery and an automatic measurement of motor activity. The neurotoxicity of tabun was monitored at 24h and 7 days following tabun challenge. The results indicate that all oximes studied in combination with atropine allow all tabun-poisoned rats to survive within 7 days following tabun challenge while two non-treated tabun-poisoned rats died within 2h. Both newly developed oximes combined with atropine seem to be effective antidotes for a decrease in tabun-induced neurotoxicity in the case of sublethal poisoning although they are not able to eliminate tabun-induced neurotoxicity completely. The oxime K075 showed a higher neuroprotective efficacy against tabun than K074 according to the number of eliminated tabun-induced neurotoxic signs at 24h as well as 7 days after tabun challenge. The neuroprotective efficacy of obidoxime in combination with atropine is similar to the potency of newly developed oxime K075 but the ability of the oxime HI-6 to counteract tabun-induced acute neurotoxicity is significantly lower at 24h as well as 7 days after tabun poisoning. Due to their neuroprotective effects, both newly developed oximes (especially K075) appear to be more suitable oximes for the antidotal treatment of acute tabun poisonings than the oxime HI-6.     

A comparison of the ability of newly-developed bispyridinium oxime K203 and currently available oximes (trimedoxime,obidoxime, HI-6) to counteract the acute neurotoxicity of soman in rats

The neuroprotective effects of newly-developed oxime K203 and currently available oximes (trimedoxime, obidoxime, HI-6) in combination with atropine in rats poisoned with soman were studied. The soman-induced neurotoxicity was monitored using a functional observational battery at 24?h following soman challenge. The results indicate that the potency of a newly-developed oxime K203 to counteract soman-induced neurotoxicity is very low and roughly corresponds to the neuroprotective efficacy of currently available oximes. Among tested oximes, the oxime HI-6 seems to be the most efficacious to counteract acute neurotoxicity of soman, although the differences in neuroprotective efficacy of chosen oximes are not significant. Thus, the oxime K203 does not provide any beneficial effect for the antidotal treatment of acute poisoning with soman and the oxime HI-6 should be still considered to be the best oxime for antidotal treatment of acute soman poisonings.     

A Comparison of the Potency of Newly Developed Oximes (K074, K075) and Currently Available Oximes (Obidoxime,Trimedoxime, Hi-6) to Counteract Acute Toxic Effects of Tabun and Cyclosarin in Mice

The potency of newly developed oximes (K074, K075) and commonly used oximes (obidoxime, trimedoxime, and HI-6) to counteract tabun or cyclosarin-induced acute toxic effects was studied in mice. The therapeutic efficacy of trimedoxime and both newly developed oximes (K074, K075) was significantly higher than the potency of obidoxime and the oxime HI-6 in the case of acute tabun poisonings. On the other hand, the oxime HI-6 was significantly more efficacious than other studied oximes when mice were intoxicated with cyclosarin. The findings support the hypothesis that the therapeutic efficacy of oximes depends on the type of nerve agent. Due to their therapeutic efficacy, both newly developed K oximes can be considered to be promising oximes for the antidotal treatment of acute tabun poisonings, while the oxime HI-6 is still the most promising oxime for the treatment of acute cyclosarin poisonings due to its high potency to counteract cyclosarin-induced acute toxic effects.     

A comparison of the potency of newly developed oximes (K074, K075) and currently available oximes (obidoxime, trimedoxime, HI-6) to counteract acute toxic effects of tabun and cyclosarin in mice

The potency of newly developed oximes (K074, K075) and commonly used oximes (obidoxime, trimedoxime, and HI-6) to counteract tabun or cyclosarin-induced acute toxic effects was studied in mice. The therapeutic efficacy of trimedoxime and both newly developed oximes (K074, K075) was significantly higher than the potency of obidoxime and the oxime HI-6 in the case of acute tabun poisonings. On the other hand, the oxime HI-6 was significantly more efficacious than other studied oximes when mice were intoxicated with cyclosarin. The findings support the hypothesis that the therapeutic efficacy of oximes depends on the type of nerve agent. Due to their therapeutic efficacy, both newly developed K oximes can be considered to be promising oximes for the antidotal treatment of acute tabun poisonings, while the oxime HI-6 is still the most promising oxime for the treatment of acute cyclosarin poisonings due to its high potency to counteract cyclosarin-induced acute toxic effects.     

A comparison of the neuroprotective efficacy of individual oxime (HI-6) and combinations of oximes (HI-6+trimedoxime, HI-6+K203) in soman-poisoned rats

The ability of two combinations of oximes (HI-6+trimedoxime, HI-6+K203) to reduce soman-induced acute neurotoxic signs and symptoms was compared with the neuroprotective efficacy of the oxime HI-6 alone, using a functional observational battery. Soman-induced neurotoxicity and the neuroprotective effects of HI-6 alone and HI-6 combined with trimedoxime or K203 in rats poisoned with soman at a sublethal dose (90 μg/kg intramuscularly, i.m.; 80% of LD?? value) were monitored by the functional observational battery at 24 hours following soman administration. The results indicate that both tested oxime mixtures combined with atropine were able to allow soman-poisoned rats to survive 24 hours following soman challenge, while 4 nontreated soman-poisoned rats and 1 soman-poisoned rat treated with oxime HI-6 alone combined with atropine died within 24 hours following soman poisoning. While the oxime HI-6 alone combined with atropine treatment was able to eliminate a few soman-induced neurotoxic signs and symptoms, both oxime mixtures showed higher neuroprotective efficacy in soman-poisoned rats. Especially, the combination of HI-6 with trimedoxime was able to eliminate most soman-induced neurotoxic signs and symptoms and markedly reduce acute neurotoxicity of soman in rats. Thus, both tested mixtures of oximes combined with atropine were able to increase the neuroprotective effectiveness of antidotal treatment of acute soman poisonings, compared to the individual oxime.     

Evaluation of the Neuroprotective Efficacy of Newly Developed Oximes (K206, K269) and Currently Available Oximes (Obidoxime,HI‐6) in Cyclosarin‐Poisoned Rats

Abstract: The neuroprotective effects of newly developed oximes (K206, K269) and currently available oximes (obidoxime, HI‐6) in combination with atropine in rats poisoned with cyclosarin were studied. The cyclosarin‐induced neurotoxicity was monitored using a functional observational battery at 24 hr following cyclosarin challenge. The results indicate that a newly developed oxime K206 is able to counteract cyclosarin‐induced neurotoxicity while the neuroprotective potency of another newly developed oxime (K269) is negligible. The neuroprotective efficacy of K206 is markedly higher than commonly used obidoxime; nevertheless, its potency to eliminate cyclosarin‐induced neurotoxicity is slightly lower compared to the oxime HI‐6. Thus, a newly developed oxime K206 seems to be a better oxime for the antidotal treatment of cyclosarin poisonings than obidoxime due to higher neuroprotective potency although the oxime HI‐6 is still the most suitable oxime for the antidotal treatment of acute poisonings with cyclosarin.     

The development of new oximes and the evaluation of their reactivating, therapeutic and neuroprotective efficacy against tabun

Tabun (O-ethyl-N,N-dimethyl phosphoramidocyanidate) belongs to highly toxic organophosphorus compounds misused as chemical warfare agents for military as well as terroristic purposes. The antidotal treatment of tabun acute poisonings still represents a serious problem and the development of new, more effective AChE reactivators to achieve the satisfactorily effective antidotal treatment of acute poisonings with tabun still represents very important goal. Since 2003, we have prepared around 200 new AChE reactivators. Their potency to reactivate tabun-inhibited acetylcholinesterase has been subsequently evaluated using our in vitro screening test. Afterwards, promising compounds were selected and kinetic parameters and reactivation constants were determined. Then, the best reactivators were subjected to the in vivo studies (toxicity test, the evaluation of therapeutic, reactivating and neuroprotective efficacy) and their potency to counteract the acute toxicity of tabun is compared to the therapeutic, reactivating and neuroprotective efficacy of commonly used oximes - obidoxime and the oxime HI-6. According to the results obtained, the newly synthesized oxime K075 showed the highest potency to reduce tabun-induced acute lethal toxicity while the therapeutic potency of obidoxime and the oxime HI-6 was significantly lower. The therapeutic efficacy of oximes studied corresponds to their reactivating efficacy in vivo as well as in vitro. The potency of all newly synthesized oximes to reactivate tabun-inhibited AChE is comparable with obidoxime with the exception of K074 that is significantly more efficacious in the brain. In addition, all newly synthesized oximes combined with atropine seem to be effective antidotes for a decrease in tabun-induced acute neurotoxicity. While the neuroprotective efficacy of obidoxime in combination with atropine is similar to the potency of newly synthesized oximes, the ability of the oxime HI-6 combined with atropine to counteract tabun-induced acute neurotoxicity is significantly lower. Due to their therapeutic, reactivating and neuroprotective efficacy, all newly synthesized oximes appear to be suitable oximes for the antidotal treatment of acute tabun poisonings.     

A comparison of the potency of newly developed oximes (K027, K048) and commonly used oximes (obidoxime, HI-6) to counteract tabun-induced neurotoxicity in rats

The neuroprotective effects of newly developed oximes (K027, K048) and currently available oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with tabun at a sublethal dose (170 microg kg(-1) i.m.; 80% of LD(50) value) were studied. The tabun-induced neurotoxicity was monitored using a functional observational battery and an automatic measurement of motor activity. The neurotoxicity of tabun was monitored at 24 h and 7 days following tabun challenge. The results indicate that the oxime HI-6 in combination with atropine was not able to protect the rats from the lethal effects of tabun. Two non-treated tabun-poisoned rats and one tabun-poisoned rat treated with atropine combined with HI-6 died within 2 h. On the other hand, all other tested oximes combined with atropine allowed all the tabun-poisoned rats to survive 7 days following tabun challenge. Both newly developed oximes combined with atropine seem to be sufficiently effective antidotes for a decrease in tabun-induced neurotoxicity in the case of sublethal poisoning although they are not able to eliminate tabun-induced neurotoxicity completely. The neuroprotective efficacy of obidoxime in combination with atropine approached the potency of newly developed oximes but the ability of the oxime HI-6 to counteract tabun-induced acute neurotoxicity was significantly lower, especially at 24 h after tabun poisoning. Due to their neuroprotective effects, both newly developed oximes appear to be suitable oximes for the antidotal treatment of acute tabun poisoning.     

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.     

A Comparison of neuroprotective efficacy of newly developed oximes (K203, K206) and commonly used oximes (obidoxime,HI-6) in tabun-poisoned rats

The neuroprotective effects of newly developed oximes (K203, K206) and commonly used oximes (obidoxime, HI-6) in combination with atropine in rats poisoned with tabun at a sublethal dose (180 μg/kg i.m.; 80% LD₅₀) were studied. The tabun-induced neurotoxicity was monitored by using a functional observational battery and an automatic measurement of motor activity. The neurotoxicity of tabun was monitored at 24 hours and 7 days following tabun challenge. The results indicate that K203 and obidoxime in combination with atropine allow all tabun-poisoned rats to survive within 7 days following tabun challenge, while 2 nontreated tabun-poisoned rats and 1 tabun-poisoned rat treated with K206 or HI-6 in combination with atropine died within 7 days. Only one of the newly developed oximes (K203) combined with atropine seems to be effective for a decrease in tabun-induced neurotoxicity within 24 hours after tabun sublethal poisoning, although it is not able to eliminate tabun-induced neurotoxicity completely. On the other hand, the neuroprotective efficacy of commonly used oximes (obidoxime and HI-6), as well as one of the new synthesized oximes (K206), is significantly lower in comparison with K203, according to the number of eliminated tabun-induced neurotoxic signs at 24 hours after tabun challenge. Due to its neuroprotective effects, K203 appears to be a suitable oxime for the antidotal treatment of acute tabun poisonings.     

The evaluation of the neuroprotective effects of bispyridinium oximes in tabun-poisoned rats

Tabun (O-ethyl-N,N-dimethyl phosphoramidocyanidate) belongs to the group of highly toxic organophosphorus compounds that may be used as chemical warfare agents for military as well as terrorist purposes. Tabun differs from other highly toxic organophosphates by the fact that commonly used antidotes are not able adequately to prevent tabun-induced acute toxic effects. The neuroprotective effects of four bispyridinium oximes (K075, trimedoxime, HI-6, obidoxime) in combination with atropine on rats poisoned with tabun at a sublethal dose (150 microg/kg i.m.; 80% of LD50 value) were studied. Tabun-induced neurotoxicity was monitored using a functional observational battery and automatic measurement of motor activity at 24 h and 7 d following tabun challenge. The results indicated that all tested oximes combined with atropine enabled tabun-poisoned rats to survive 7 d following challenge. Trimedoxime combined with atropine was the most effective antidote in decreasing tabun-induced neurotoxicity in the case of sublethal poisonings among all oximes tested. Due to its neuroprotective effects, trimedoxime may be considered to be more suitable oxime for the antidotal treatment of acute tabun exposure than currently used oximes (obidoxime, HI-6) and the newly synthesized oxime K075.     

Neuroprotective effects of currently used antidotes in tabun-poisoned rats

The neuroprotective effects of antidotes (atropine, pralidoxime/atropine, obidoxime/atropine and HI-6/atropine mixtures) on rats poisoned with tabun at a lethal dose (220 microg/kg intramuscularly; 100% of LD50 value) were studied. The tabun-induced neurotoxicity was monitored using a functional observational battery and an automatic measurement of motor activity. The neurotoxicity of tabun was monitored at 24 hr and 7 days after tabun challenge. The results indicate that atropine alone is not able to protect the rats from the lethal effects of tabun. Three non-treated tabun-poisoned rats and one tabun-poisoned rat treated with atropine alone died within 24 hr. On the other hand, atropine combined with all tested oximes allows all tabun-poisoned rats to survive at least 7 days following tabun challenge. Obidoxime combined with atropine seems to be the most effective antidotal treatment for the elimination of tabun-induced neurotoxicity in the case of lethal poisoning among tested antidotal mixtures. The antidotal mixture consisting of atropine and HI-6 is significantly less effective than the combination of atropine with obidoxime in the elimination of tabun-induced neurotoxicity in rats at 24 hr following tabun challenge. Pralidoxime in combination with atropine appears to be practically ineffective to decrease tabun-induced neurotoxicity at 24 hours as well as 7 days following tabun poisoning. Due to its neuroprotective effects, obidoxime seems to be the most effective and most suitable oxime for the antidotal treatment of acute tabun exposure among currently used oximes. Thus, the replacement of obidoxime by a more effective acetylcholinesterase reactivator for soman poisoning, the oxime HI-6, can to a small extent diminish the neuroprotective efficacy of antidotal treatment in the case of acute tabun poisonings.     

Evaluation of the Potency of Two Novel Bispyridinium Oximes (K456, K458) in Comparison with Oxime K203 and Trimedoxime to Counteract Tabun‐Induced Neurotoxicity in Rats

The ability of two newly developed bispyridinium oximes (K456, K458) to reduce tabun‐induced acute neurotoxic signs and symptoms was compared with oxime K203 and trimedoxime using the functional observational battery. The neuroprotective effects of the oximes studied combined with atropine on rats poisoned with tabun at a sublethal dose (200 μg/kg i.m.; 85% of LD₅₀ value) were evaluated. Tabun‐induced neurotoxicity was monitored by the functional observational battery and automatic measurement of motor activity at 2 hr after tabun challenge. The results indicate that all tested oximes combined with atropine enable tabun‐poisoned rats to survive till the end of experiment. Both newly developed oximes (K456, K458) combined with atropine were able to decrease tabun‐induced neurotoxicity in the case of sublethal poisonings although they did not eliminate all tabun‐induced acute neurotoxic signs and symptoms. Their ability to decrease tabun‐induced acute neurotoxicity was slightly higher than that of trimedoxime and oxime K203, but the difference in neuroprotective efficacy among all oximes studied is not large enough to make a decision about replacement of commonly used oximes (especially trimedoxime and obidoxime) in the treatment of acute tabun poisonings.     

A Comparison of the Therapeutic and Reactivating Efficacy of Newly Developed Oximes (K117, K127) and Currently Available Oximes (Obidoxime,Trimedoxime, HI-6) in Tabun-Poisoned Rats and Mice

The potency of newly developed bispyridinium compounds (K117, K127) to reactivate tabun-inhibited acetylcholinesterase and reduce tabun-induced lethal toxic effects was compared with currently available oximes (obidoxime, trimedoxime, oxime HI-6) by using in vivo methods. A study that determined the percentage of reactivation of tabun-inhibited blood and tissue acetylcholinesterase in poisoned rats showed that the reactivating efficacy of newly developed oxime K127 is comparable with obidoxime and trimedoxime in blood but lower than the reactivating potency of trimedoxime and obidoxime in the diaphragm and brain. The potency of another newly developed K117 to reactivate tabun-inhibited acetylcholinesterase is comparable with obidoxime or trimedoxime in the diaphragm, but it is significantly lower than the reactivating potency of trimedoxime and obidoxime in the blood and brain. The oxime, K127, was also found to be relatively effective in reducing lethal toxic effects in tabun-poisoned mice. Its therapeutic efficacy is consistent with the therapeutic potency of obidoxime. On the other hand, the potency of the oxime, K117, to reduce acute toxicity of tabun is significantly lower compared to trimedoxime and obidoxime. The therapeutic efficacy of K117 and K127 corresponds to their potency to reactivate tabun-inhibited acetylcholinesterase, especially in the diaphragm and brain. Contrary to obidoxime and trimedoxime, the oxime, HI-6, is not an effective oxime in the reactivation of tabun-inhibited acetycholinesterase and in reducing the lethal effects of tabun. The reactivating and therapeutic potency of both newly developed oximes does not prevail over the effectiveness of currently available obidoxime and trimedoxime and, therefore, they are not suitable for their replacement of commonly used oximes for the treatment of acute tabun poisoning.     

Neuroprotective effects of currently used antidotes in soman-poisoned rats

The neuroprotective effects of antidotes (atropine, obidoxime, obidoxime/atropine mixture) on rats poisoned with soman at a sublethal dose (54 microg/kg, im, 80% of LD(50) value) were studied. The soman-induced neurotoxicity was monitored using a functional observational battery (FOB) and an automatic measurement of motor activity. The neurotoxicity of soman was monitored at 24 h and 7 days following soman challenge. The results indicate that obidoxime alone is not able to protect the rats from the lethal effects of soman. Three soman-poisoned rats treated with obidoxime alone died within 24 h. On the other hand, atropine alone or combined with obidoxime allows all soman-poisoned rats to survive within 7 days following soman challenge. Atropine alone and combined with obidoxime seems to be relatively effective antidotal treatment for the elimination of soman-induced neurotoxicity in the case of sublethal poisonings, although the antidotal mixture is significantly less effective than atropine alone because obidoxime can counteract the beneficial effects of atropine. Obidoxime appears to be practically ineffective to diminish soman-induced neurotoxicity. The neuroprotective effects of antidotal mixture consisting of atropine and obidoxime depend on the antimuscarinic effects of atropine only. Thus, the replacement of obidoxime by more effective acetylcholinesterase (AChE) reactivators is necessary to increase the neuroprotective efficacy of antidotal treatment in the case of soman poisonings.     

Neuroprotective Effects of Currently Used Antidotes in Tabun‐Poisoned Rats

Abstract: The neuroprotective effects of antidotes (atropine, pralidoxime/atropine, obidoxime/atropine and HI‐6/atropine mixtures) on rats poisoned with tabun at a lethal dose (220 μg/kg intramuscularly; 100% of LD50 value) were studied. The tabun‐induced neurotoxicity was monitored using a functional observational battery and an automatic measurement of motor activity. The neurotoxicity of tabun was monitored at 24 hr and 7 days after tabun challenge. The results indicate that atropine alone is not able to protect the rats from the lethal effects of tabun. Three non‐treated tabun‐poisoned rats and one tabun‐poisoned rat treated with atropine alone died within 24 hr. On the other hand, atropine combined with all tested oximes allows all tabun‐poisoned rats to survive at least 7 days following tabun challenge. Obidoxime combined with atropine seems to be the most effective antidotal treatment for the elimination of tabun‐induced neurotoxicity in the case of lethal poisoning among tested antidotal mixtures. The antidotal mixture consisting of atropine and HI‐6 is significantly less effective than the combination of atropine with obidoxime in the elimination of tabun‐induced neurotoxicity in rats at 24 hr following tabun challenge. Pralidoxime in combination with atropine appears to be practically ineffective to decrease tabun‐induced neurotoxicity at 24 hours as well as 7 days following tabun poisoning. Due to its neuroprotective effects, obidoxime seems to be the most effective and most suitable oxime for the antidotal treatment of acute tabun exposure among currently used oximes. Thus, the replacement of obidoxime by a more effective acetylcholinesterase reactivator for soman poisoning, the oxime HI‐6, can to a small extent diminish the neuroprotective efficacy of antidotal treatment in the case of acute tabun poisonings.     

An evaluation of therapeutic and reactivating effects of newly developed oximes (K156, K203) and commonly used oximes (obidoxime, trimedoxime, HI-6) in tabun-poisoned rats and mice

The potency of newly developed monoxime bispyridinium compounds (K156, K203) in reactivating tabun-inhibited acetylcholinesterase and reducing tabun-induced lethal toxic effects was compared with commonly used oximes (obidoxime, trimedoxime, the oxime HI-6) using in vivo methods. Studies determining percentage of reactivation of tabun-inhibited blood and tissue acetylcholinesterase in poisoned rats showed that the reactivating efficacy of newly developed oxime K203 is comparable with obidoxime and trimedoxime in blood and higher than the reactivating potency of trimedoxime and obidoxime in diaphragm and brain, where the difference in reactivating efficacy of obidoxime, trimedoxime and K203 is significant. On the other hand, the potency of newly developed K156 to reactivate tabun-inhibited acetylcholinesterase is comparable with obidoxime or trimedoxime in diaphragm and brain. It is significantly lower than the reactivating efficacy of trimedoxime and obidoxime in blood. Moreover, both newly developed oximes were found to be relatively efficacious in the reduction of lethal toxic effects in tabun-poisoned mice. Especially, the oxime K203 is able to decrease the acute toxicity of tabun nearly two times. The therapeutic efficacy of K156 and K203 corresponds to their potency to reactivate tabun-inhibited acetylcholinesterase, especially in diaphragm and brain. In contrast to obidoxime and trimedoxime, the oxime HI-6 is not effective in reactivation of tabun-inhibited acetycholinesterase and in reducing tabun lethality. While the oxime K156 does not improve the reactivating and therapeutic effectiveness of currently available obidoxime and trimedoxime, the newly developed oxime K203 is markedly more effective in reactivation of tabun-inhibited acetylcholinesterase in rats, especially in brain, and in reducing lethal toxic effects of tabun in mice and, therefore, it is suitable for the replacement of commonly used oximes for the antidotal treatment of acute tabun poisoning.     

The benefit of combination of oximes for the neuroprotective efficacy of antidotal treatment of sarin-poisoned rats

The potency of the oxime HI-6 and two combinations of oximes (HI-6 + trimedoxime, HI-6 + K203) to reduce sarin-induced acute neurotoxic signs and symptoms was evaluated in this study. Sarin-induced neurotoxicity and the neuroprotective effects of atropine alone or in combination with HI-6 alone and HI-6 combined with trimedoxime or K203 in rats poisoned with sarin at a sublethal dose (108 μg/kg i.m.; 90% of LD(50) value) were monitored by a functional observatory battery (FOB) 24?h following sarin administration. The results indicate that both mixtures of oximes combined with atropine were able to survive sarin-poisoned rats 24?h following sarin administration while two non-treated sarin-poisoned rats and one sarin-poisoned rat treated with atropine alone or with atropine in combination with the oxime HI-6 died within 24?h following sarin poisoning. All types of antidotal treatment were able to decrease sarin-induced neurotoxic signs and symptoms but not completely. While atropine alone and atropine in combination with the oxime HI-6 were able to eliminate some sarin-induced neurotoxic signs and symptoms, the neuroprotective efficacy of both combinations of oximes with atropine was slightly higher. Thus, both tested combinations of oximes in combination with atropine bring a small benefit for the neuroprotective efficacy of antidotal treatment of acute sarin poisonings.