Being prepared: emergency treatment following a nerve agent release.

Nerve agents are extremely toxic and are some of the most lethal substances on earth. This group of chemicals consists of sarin, cyclosarin, soman, tabun, VX, and VR. It is currently unknown how many countries possess these chemicals and in what quantities. These agents work through altering the transmission and breakdown of acetylcholine by binding to, and inactivating, acetylcholinesterase. This results in an uncontrolled and overwhelming stimulation of both muscarinic and nicotinic receptors. Receptor activation at these sites can lead to a wide variety of clinical symptoms, with death frequently resulting from pulmonary edema. Antidotal therapy in this setting largely consists of atropine, pralidoxime, and benzodiazepines, all of which must be administered emergently to limit the progression of symptoms and prevent the enzyme inactivation from becoming permanent. This article reviews the mechanism of action of the nerve agents and their effects on the human body, the currently available therapies to mitigate their impact, and important therapeutic considerations for health care practitioners in the emergency department.

Organophosphate exposure with pseudocholinesterase deficiency.

A 36-year-old correctional officer was exposed to lice while at work and self-treated with chlorpyrifos, an organophosphate. The correctional officer applied chlorpyrifos to her entire body and did not wash it off for 8 to 12 hours. Eight hours after the initial application, the correctional officer developed abdominal cramps, diarrhea, sweating, excessive salivation, frequent urination, and increased bronchial secretions. After a phone consultation with the occupational health clinic, the correctional officer reported to the emergency department, was diagnosed with organophosphate toxicity, and was treated with atropine. Later testing revealed that the correctional officer had pseudocholinesterase deficiency.