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      Human Poisoning from Poisonous Higher Fungi: Focus on Analytical Toxicology and Case Reports in Forensic Toxicology

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          Abstract

          Several families of higher fungi contain mycotoxins that cause serious or even fatal poisoning when consumed by humans. The aim of this review is to inventory, from an analytical point of view, poisoning cases linked with certain significantly toxic mycotoxins: orellanine, α- and β-amanitin, muscarine, ibotenic acid and muscimol, and gyromitrin. Clinicians are calling for the cases to be documented by toxicological analysis. This document is therefore a review of poisoning cases involving these mycotoxins reported in the literature and carries out an inventory of the analytical techniques available for their identification and quantification. It seems indeed that these poisonings are only rarely documented by toxicological analysis, due mainly to a lack of analytical methods in biological matrices. There are many reasons for this issue: the numerous varieties of mushroom involved, mycotoxins with different chemical structures, a lack of knowledge about distribution and metabolism. To sum up, we are faced with (i) obstacles to the documentation and interpretation of fatal (or non-fatal) poisoning cases and (ii) a real need for analytical methods of identifying and quantifying these mycotoxins (and their metabolites) in biological matrices.

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          Mushroom poisoning: A proposed new clinical classification

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            Amanita phalloides poisoning: Mechanisms of toxicity and treatment.

            Amanita phalloides, also known as 'death cap', is one of the most poisonous mushrooms, being involved in the majority of human fatal cases of mushroom poisoning worldwide. This species contains three main groups of toxins: amatoxins, phallotoxins, and virotoxins. From these, amatoxins, especially α-amanitin, are the main responsible for the toxic effects in humans. It is recognized that α-amanitin inhibits RNA polymerase II, causing protein deficit and ultimately cell death, although other mechanisms are thought to be involved. The liver is the main target organ of toxicity, but other organs are also affected, especially the kidneys. Intoxication symptoms usually appear after a latent period and may include gastrointestinal disorders followed by jaundice, seizures, and coma, culminating in death. Therapy consists in supportive measures, gastric decontamination, drug therapy and, ultimately, liver transplantation if clinical condition worsens. The discovery of an effective antidote is still a major unsolved issue. The present paper examines the clinical toxicology of A. phalloides, providing the currently available information on the mechanisms of toxicityinvolved and on the current knowledge on the treatment prescribed against this type of mushrooms. Antidotal perspectives will be raised as to set the pace to new and improved therapy against these mushrooms.
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              Amanita muscaria: chemistry, biology, toxicology, and ethnomycology

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                Author and article information

                Journal
                Pharmaceuticals (Basel)
                Pharmaceuticals (Basel)
                pharmaceuticals
                Pharmaceuticals
                MDPI
                1424-8247
                11 December 2020
                December 2020
                : 13
                : 12
                : 454
                Affiliations
                [1 ]Laboratory LAT LUMTOX, 07800 La Voulte sur Rhône, France; e.flament@ 123456latlumtox.com (E.F.); y.gaillard@ 123456latlumtox.com (Y.G.)
                [2 ]Laboratory of Pharmacology and Toxicology, Lyon-Sud University Hospital–Hospices Civil de Lyon, 69002 Pierre Bénite, France
                [3 ]Department of Toxicology, Faculty of Pharmacy, University Claude Bernard, 69622 Lyon, France
                [4 ]Department of Toxicology and Genopathy, Lille University Hospital, 59000 Lille, France; jeanmichel.gaulier@ 123456chru-lille.fr
                Author notes
                Author information
                https://orcid.org/0000-0003-1111-4671
                Article
                pharmaceuticals-13-00454
                10.3390/ph13120454
                7764321
                33322477
                d2a67cb9-569b-483b-ad5b-3d42d06388c8
                © 2020 by the authors.

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                : 14 November 2020
                : 09 December 2020
                Categories
                Review

                mushroom poisoning,mycotoxins,orellanine,analytical toxicology,amatoxins,forensic toxicology

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