Angioedema and Dual Nurse Flight Crew Cricothyrotomy After Envenomation by a Severed Rattlesnake Head.

Crotalid envenomation may result in airway compromise from angioedema, anaphylaxis, or an anaphylactoid reaction. A 57-year-old man was transported by helicopter to the emergency department (ED) after a bite to his hand from a severed rattlesnake head. He rapidly developed facial and oropharyngeal edema that did not respond to standard treatment. After 2 unsuccessful attempts at intubation, the dual flight nurse team performed a cricothyrotomy. They notified the ED team en route, and antivenom was prepared before arrival. Angioedema was suspected because there was no concomitant urticaria, bronchoconstriction, or persistent hypotension. Edema and ecchymosis of the affected extremity were mild. Severe coagulopathy ensued, which was treated with bolus doses of antivenom and continuous infusion. This case report is significant for several reasons. It is the first detailing a prehospital cricothyrotomy performed by flight crew nurses for life-threatening airway edema caused by snakebite envenomation. In-flight notification enabled the ED staff to prepare and administer antivenom immediately after arrival. Despite the use of antivenom in bolus dosing, crotalid envenomation may be complicated by persistent or recurring coagulopathy, and continuous antivenom infusion may be useful. Finally, it highlights the danger of snakebite envenomation even after the death and decapitation of a snake.

Therapeutic effects of exercise: wheel running reverses stress-induced interference with shuttle box escape.

Exercise can reduce symptoms of depression and anxiety in humans, but therapeutic effects of exercise in an animal model of stress-related mood disorders have yet to be demonstrated. In the current study, the authors investigated the ability of wheel running to reverse a long-lasting interference with shuttle box escape produced by uncontrollable stress. Rats who remained sedentary following uncontrollable foot shock demonstrated robust conditioned freezing behavior to the stressor environment and deficits in shuttle box escape learning. Voluntary access to running wheels for 6 weeks, but not 2 weeks, following uncontrollable foot shock reduced the expression of conditioned freezing and reversed the escape deficit. Results demonstrate a long-lasting interference with shuttle box escape that can be reversed by exercise in a duration-dependent fashion.