Acute kidney injury complicating bee stings - a review

ABSTRACT Bee stings can cause severe reactions and have caused many victims in the last years. Allergic reactions can be triggered by a single sting and the greater the number of stings, the worse the prognosis. The poisoning effects can be systemic and can eventually cause death. The poison components are melitin, apamin, peptide 401, phospholipase A2, hyaluronidase, histamine, dopamine, and norepinephrine, with melitin being the main lethal component. Acute kidney injury (AKI) can be observed in patients suffering from bee stings and this is due to multiple factors, such as intravascular hemolysis, rhabdomyolysis, hypotension and direct toxicity of the venom components to the renal tubules. Arterial hypotension plays an important role in this type of AKI, leading to ischemic renal lesion. The most commonly identified biopsy finding in these cases is acute tubular necrosis, which can occur due to both, ischemic injury and the nephrotoxicity of venom components. Hemolysis and rhabdomyolysis reported in many cases in the literature, were demonstrated by elevated serum levels of indirect bilirubin and creatine kinase. The severity of AKI seems to be associated with the number of stings, since creatinine levels were higher, in most cases, when there were more than 1,000 stings. The aim of this study is to present an updated review of AKI associated with bee stings, including the currently advised clinical approach.

Envenenamiento por picaduras de abeja / Poisoning by bee sting

Dentro de las patologías humanas producidas por animales con la capacidad de inocular veneno, las picaduras de abeja producen el mayor número de accidentes por animales en muchos países, superando a menudo en mortalidad a los producidos por serpientes, escorpiones y arañas. El cuadro clínico por la picadura de estos himenópteros puede consistir en fenómenos alérgicos o en cuadros de envenenamiento. Estos últimos se producen por el ataque de enjambres constituyendo un hecho grave que puede comprometer la vida. En el sujeto envenenado pueden observarse hemólisis, rabdomiólisis e insuficiencia renal, que junto a otras alteraciones sistémicas pueden conducir a la muerte. El conocimiento de los acontecimientos fisiopatológicos que se producen ante los ataques masivos de abejas es de suma importancia para el personal de salud dado que hasta la fecha no existen antivenenos que hayan demostrado tener eficacia clínica comprobada. En esta revisión se consideran los aspectos biológicos de las abejas y de la composición de su veneno relacionado con la ocurrencia y severidad de los accidentes, así como datos epidemiológicos de utilidad para enfrentarse a este tipo de cuadro.

Among the human pathologies produced by venomous animals, bee stings constitute the largest number of accidents in several countries, exceeding the mortality rate caused by other venomous animals such as snakes, spiders or scorpions. The clinical picture after the bee sting may include anaphylaxis or poisoning. The latter is produced by massive attacks and is a serious problem that may put the patient's life at risk. People that are poisoned display hemolysis, rhabdomiolysis and acute renal failure that together with other systemic failures can bring about death. The knowledge of the physiopathological mechanisms involved in the massive attack of bees is crucial for health care professionals as to date we do not ha ve antivenoms with proven clinical efficacy. In this review we include the bee's biological aspects, venom composition and its relation with the occurrence and severity of accidents as well as epidemiological data that can be useful for this type of accidents.

Molecular exclusion chromatography of crude venom as an auxiliary tool to identify hybrid honeybee populations

A comparison among the profiles of molecular exclusion chromatography in Sephadex G 100 column of venoms from Apis mellifera adansonii and Africanized honeybees revealed unique peaks which might be used to identify these populations. The venoms from hybrid populations resulting from the reciprocal mating of Apis mellifera adansonii and Africanized honeybees presented unique peaks, probably resulting from a synergistic effect between the parental genomes. The occurrence of characteristic peaks in venoms of hybrid populations might be used to identify these populations as well as to distinguish them from their parents.