Objective: To explore the characteristics of Banna miniature pig liver failure induced by amanita exitialis. Methods: From September to October 2020, a reverse high performance liquid chromatography (RP-HPLC) method was used to determine the toxin content of amanita exitialis solution, and 2.0 mg/kg amanita exitialis solution (α-amanitins+β-amanitins) was administered orally to Banna miniature pigs. Toxic symptoms, blood biochemical indexes and histopathological changes of liver, heart and kidney were observed at each time point. Results: All Banna miniature pigs died within 76 h of exposure, and different degrees of digestive tract symptoms such as nausea, vomiting and diarrhea appeared between 6 and 36 h. The biochemical indexes of alanine aminotransferase, aspartate aminotransferase, total bilirubin, lactate dehydrogenase, myoglobin, creatine kinase isoenzyme, blood urea nitrogen and creatinine increased significantly at 52 h after exposure, and the differences were statistically significant compared with 0 h (P<0.05). The bleeding of liver and heart was obvious under macroscopic and microscopic observation, hepatocyte necrosis, renal tubule epithelial cell swelling. Conclusion: Large dose of amanita exitialis can cause acute liver failure of Banna miniature pigs, which is in line with the pathophysiological characteristics of acute liver failure, and lays a foundation for further research on the toxic mechanism and detoxification drugs of amanita exitialis induced liver failure.
Animals ; Swine ; Amanitins/metabolism* ; Swine, Miniature/metabolism* ; Amanita/metabolism* ; Liver Failure, Acute ; Mushroom Poisoning/diagnosis*

Mushroom poisonings are potentially fatal. Most fatalities are due to the amatoxin that causes fulminant hepatic failure and acute renal failure. We report a patient who developed acute renal failure after ingesting Amanita virgineoides, which required renal replacement therapy, despite recovery of liver injury. A kidney biopsy showed acute tubular necrosis. The patient was recovered with the supportive care and temporary hemodialysis.
Acute Kidney Injury ; Amanita ; Amanitins ; Biopsy ; Humans ; Kidney ; Liver ; Liver Failure, Acute ; Mushroom Poisoning ; Necrosis ; Renal Dialysis ; Renal Replacement Therapy

We report here three cases of Amanita virosa induced toxic hepatitis. Two of the three cases recovered but the other died 10 days after mushroom ingestion. Since the mortality of Amanita mushroom induced toxic hepatitis is very high, prompt diagnosis and aggressive therapeutic measures should be initiated as soon as possible. Our cases showed that the initial serum aminotransferase levels might not predict the clinical outcome of the patient, but that the prothrombin time (PT) seemed to be a more useful prognostic marker. Close monitoring of aminotransferase levels and PT as well as appropriate therapy are recommended. All three cases showed signs of proteinuria and we were able to characterize mixed tubular and glomerular type proteinuria at 3 or 4 days after ingestion in two cases. Among the previously reported Korean cases of suspected Amanita induced toxic hepatitis, most species could not be identified except for four cases of Amanita virosa. No cases of Amanita phalloides induced toxic hepatitis have been identified in Korea so far.
Adult ; Amanita* ; Amanitins/poisoning* ; Case Report ; Female ; Hepatitis, Toxic/urine ; Hepatitis, Toxic/etiology* ; Human ; Male ; Middle Age ; Mushroom Poisoning/complications* ; Proteinuria/etiology

Adolescent ; Adult ; Amanita ; Amanitins ; blood ; Child ; Child, Preschool ; Female ; Hemoperfusion ; Humans ; Liver Diseases ; etiology ; therapy ; Liver, Artificial ; Male ; Mushroom Poisoning ; complications ; therapy ; Plasma Exchange ; Sorption Detoxification