Romano_1991_Drug.Chem.Toxicol_14_21

Reference

Title : Protection from lethality and behavioral incapacitation resulting from intoxication by soman (pinacolyl methylphosphonofluoridate) and treatment with atropine sulfate and 2-PAM chloride in the guinea pig, cavia porcellus - Romano_1991_Drug.Chem.Toxicol_14_21
Author(s) : Romano JA, Jr. , Terry MR , Murrow ML , Mays MZ
Ref : Drug & Chemical Toxicology , 14 :21 , 1991
Abstract :

The lethal and incapacitating effects of the toxic organophosphorus (OP) agent, soman were evaluated in guinea pigs. The protective effects of the standard therapies atropine sulfate (ATR) and pralidoxime chloride (2-PAM) in minimizing or reducing soman-produced lethality and incapacitation (evaluated using a modification of the rat conditioned avoidance procedure) were also studied. At 0.75 and 1.5 LD50 soman was extremely toxic and fast-acting; its effects appeared within five minutes, and its lethal effects occurred within the first three hours. Therapeutic combinations of ATR (64 or 128 mg/kg) and 2-PAM (25 or 100 mg/kg) protected animals from the lethality of soman, but not from its incapacitating effects. However, therapeutic treatment with ATR and 2-PAM also produced a behavioral toxicity in its own right, an effect which lasted for at least three hours in the guinea pig. This behavioral toxicity was lessened by reducing ATR dosage from 128 to 64 mg/kg, but 2-PAM dosage did not influence the behavioral toxicity of the treatment combinations within the range of dosages studied.

PubMedSearch : Romano_1991_Drug.Chem.Toxicol_14_21
PubMedID: 1889376

Related information

Inhibitor Soman
Reactivator 2-PAM

Citations formats

Romano JA, Jr., Terry MR, Murrow ML, Mays MZ (1991)
Protection from lethality and behavioral incapacitation resulting from intoxication by soman (pinacolyl methylphosphonofluoridate) and treatment with atropine sulfate and 2-PAM chloride in the guinea pig, cavia porcellus
Drug & Chemical Toxicology 14 :21

Romano JA, Jr., Terry MR, Murrow ML, Mays MZ (1991)
Drug & Chemical Toxicology 14 :21