• Pediatric Gastroenterology, Hepatology & Nutrition
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• v.11 no.2
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• pp.210-213
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• 2008

Hyperacute liver failure from mushroom intoxication in children is rare and has a low survival rate. We report a case of hyperacute liver failure from mushroom intoxication in a 29-month-old boy. The patient ingested a mushroom about three days prior to presentation. He was admitted to the hospital with vomiting, abdominal pain, seizures, and hematemesis. During the hospitalization the patient developed hepatic encephalopathy (stage IV-a), and a coagulopathy. He recovered fully with specific medication, Penicillin GK and N-acetylcysteine.

• Journal of Forest and Environmental Science
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• v.26 no.1
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• pp.37-51
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• 2010

A mushroom as a functional food material is being increasingly used in these days. It has been that about 1,500 species of mushrooms grow naturally in Asia. Among them about 700 species are edible, but about 30-50 species are poisonous. Even a poisonous mushroom is a very interesting subject for the dietary life research from biochemical viewpoint due to the fact that any mushroom can be the physiological active material. Not a few identified poisonous materials are being used as research reagents thus far. It is suggested that more useful materials could be obtained by progresses in future researches. The identification of the poisonous ingredient can open up a route for mushroom intoxication cure. It is known that cell destruction and troubles on skin, liver, and kidney troubles can be occurred from mushroom intoxication. Recently the author reported as a collection of treatises regarding anti-tumor substances of mushroom (2005), antibiotic substances of mushroom (2006), living-body functional and control substance (2007), and medicinal mushroom commonly used in Korean herbal medicines (2008). In this sequel, published research data on protoplasm, nerve, stomach and intestines, malodor, and acute pain poison of mushroom are collected and reported.

• The Korean Journal of Mycology
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• v.12 no.3
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• pp.117-119
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• 1984

To find toxic components in Korean higher fungi, the carpophores of Naematoloma fasciculare which had caused several cases of lethal intoxication were examined for toxicity. The components of high molecular weight were separated by ethanol precipitation and dialysis from the aqueous extract of the carpophores. After the components were freeze-dried, a brown powder was obtained. When a dose of 60mg/kg of this macromolecular fraction was intraperitoneally injected into mice, the mice began to die in six days and a half of them died within seven days. This toxic component was named nematoxin after the genus name of the mushroom.

• Korean Journal of Microbiology
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• v.15 no.1
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• pp.46-59
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• 1977

To screen biologically active components of the higher fungi of Korea, the carpophores of Auricularia polytricha, a well-known edible mushroom, were extracted with 0.14M NaCl solution. The extractive was successively fractionated by adding ammonium sulfate in various amounts, the respective precipitates being weparated by centrifugation, dialyzed and freeze-dried. When a dose of 60mg/kg of each was, i.p., injected into ICR mice, the fraction shich was precopitated at 20% (NH$_{4}$)$_{2}$SO$_{4}$ showed the highest toxicity, killing seven mice within two days. The fraction obtained at 40% (NH$_{4}$)$_{2}$SO$_{4}$ showed the second highest toxicity. The two fractions were named auratoxin I and II after the genus name. The symptoms of the intoxication were convulsion during the first 30 minutes after the injection, then sleeping within an hour, and tremor, lacrimation, nasal and ophthalmic bleeding, congestion and death in 24 hours. Particularly the spleen of the mice was fonud to be enlarged remarkably. The chemical analysis of the toxins showed that auratoxin I consisted of 4.4% protein and 84.5% polysaccharide and that auratoxin II 35.8% protein and 48.0% polysaccharide.

• Korean Journal of Microbiology
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• v.22 no.4
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• pp.223-228
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• 1984

To screen biologically active components of the higher fungi of Korea, the carpophores of Auricularia polytricha, a well-known edible mushroom, were extracted with 0.14M NaCl solution. The extractive was successively fractionated by adding ammonium sulfate in various amounts, the respective precipitates being weparated by centrifugation, dialyzed and freeze-dried. When a dose of 60mg/kg of each was, i.p., injected into ICR mice, the fraction shich was precopitated at 20% (NH/sub 4/)/sub 2/SO/sub 4/ showed the highest toxicity, killing seven mice within two days. The fraction obtained at 40% (NH/sub 4/)/sub 2/SO/sub 4/ showed the second highest toxicity. The two fractions were named auratoxin I and II after the genus name. The symptoms of the intoxication were convulsion during the first 30 minutes after the injection, then sleeping within an hour, and tremor, lacrimation, nasal and ophthalmic bleeding, congestion and death in 24 hours. Particularly the spleen of the mice was fonud to be enlarged remarkably. The chemical analysis of the toxins showed that auratoxin I consisted of 4.4% protein and 84.5% polysaccharide and that auratoxin II 35.8% protein and 48.0% polysaccharide.