Dabisch_2006_J.Ocul.Pharmacol.Ther_22_323

Reference

Title : Development of miotic cross-tolerance between pyridostigmine and sarin vapor - Dabisch_2006_J.Ocul.Pharmacol.Ther_22_323
Author(s) : Dabisch PA , Davis EA , Horsmon MS , Mioduszewski RJ
Ref : J Ocul Pharmacol Ther , 22 :323 , 2006
Abstract :

The organophosphorous nerve agent sarin (GB) and the carbamate pyridostigmine bromide (PB) both inhibit acetylcholinesterase (AChE), leading to overstimulation of muscarinic receptors. Both GB and PB produce miosis through stimulation of ocular muscarinic receptors. This study investigated 2 hypotheses: (1) that the miotic response to PB would decrease following repeated injections; and (2) that repeated administration of PB would result in tolerance to the miotic effect of GB vapor. Rats were injected intramuscularly with saline, 0.04 mg/kg, 0.5 mg/kg, or 1.4 mg/kg of PB twice daily for 8 consecutive days. After day 3, animals injected with 1.4 mg/kg PB developed miotic tolerance. Twenty-four (24) h following the final PB injection, the rats were exposed to GB vapor (4.0 mg/m(3)). A similar magnitude of miosis was observed in all groups after GB exposure. However, the rate of recovery of pupil size in animals pretreated with 0.5 and 1.4 mg/kg PB was significantly increased. Twenty (20) h following exposure to GB vapor, the pupils of animals pretreated with 1.4 mg/kg PB had recovered to 77% +/- 4% of their pre-exposure baseline, whereas the saline-injected controls had recovered to only 52% +/- 2% of their pre-exposure baseline. The increased rate of recovery does not appear to be a result of protection of pupillary muscarinic receptors by the higher doses of PB, as there was no longer PB present in the animal at the time of GB exposure. These results demonstrate the development of tolerance to the miotic effect of PB following repeated exposures, and also suggest that cross-tolerance between PB and GB occurs. However, because the magnitude of the response was not reduced, the PB pretreatment and its associated miotic cross-tolerance does not appear to diminish the effectiveness of miosis as a biomarker of acute exposure to nerve agent vapor.

PubMedSearch : Dabisch_2006_J.Ocul.Pharmacol.Ther_22_323
PubMedID: 17076626

Related information

Inhibitor Pyridostigmine

Citations formats

Dabisch PA, Davis EA, Horsmon MS, Mioduszewski RJ (2006)
Development of miotic cross-tolerance between pyridostigmine and sarin vapor
J Ocul Pharmacol Ther 22 :323

Dabisch PA, Davis EA, Horsmon MS, Mioduszewski RJ (2006)
J Ocul Pharmacol Ther 22 :323