Israel Medical Association Journal

Background: Mass honeybee envenomation (MHE) is a rare occurrence, with possible life-threatening or fatal consequences.

Objectives: To present the first description of multiple simultaneous casualties in a single incident of MHE.

Methods: Nine young men were simultaneously attacked by a large honeybee swarm. All patients were hemodynamically stable on arrival to Sheba Medical Center. One had fiberoptic evidence of laryngeal edema. Eight (89%) of the patients had leukocytosis and laboratory evidence of rhabdomyolysis. Eight patients were hospitalized in an internal medicine ward. The patient who had the most (over 300) stings removed presented with severe rhabdomyolysis and acute renal failure (ARF) and was admitted to the intensive care unit.

Results: Most patients had a benign clinical course and were discharged within 2 days. One patient developed severe rhabdomyolysis and was treated with fluids and urine alkalinization with significant improvement. The clinical course of another patient was complicated by ARF consistent with acute tubular necrosis. His creatinine peaked at 3.04 mg/dl and improved over several days until his discharge.

Conclusions: In our case series, we demonstrated the spectrum of clinical presentations associated with MHE and highlighted the importance of stings load as a prognostic factor, which may dictate early therapeutic intervention.

Background: Tumor necrosis factor is associated with various local and systemic inflammatory sequelae following snakebite. Xanthine oxidase is a principal mediator of remote tissue injury (e.g., lungs, heart, liver).

Objective: To investigate in a snakebite-like animal model the as yet unexplored role of TNF and XO in mediating organ damage following snakebite.

Methods: Sprague-Dawley rats were injected intramuscularly with a non-lethal 500 g/kg dose of Vipera aspis venom (n=10) or saline (n=10). Blood pressure and heart rate were continuously monitored, TNF- was measured in the blood, and total XO + xanthine dehydrogenase activity was assessed in various tissues. Lung histology and permeability indices were analyzed.

Results: Venom injection caused a significant (P0.05) reduction in both heart rate and invasive arterial pressure. The blood circulating TNF levels were significantly higher in the intoxicated group (P0.05 vs. saline group), with changes seen at 30 minutes from intoxication in both groups. Total XO + XDH activity in the kidney, lung and liver of the venom-injected group was significantly (P0.05) higher than in the saline group, while the activity in the heart was similar.

Conclusions: The mediation of remote organ and hemodynamic changes following intramuscular injection of a non-lethal dose of Vipera aspis venom can be attributed partly to TNF and partly to XO. More research is needed to better understand the role of either compound and the time frame of their activity before specific antagonists can be introduced for snakebite management.