Diagnostics and treatment of nerve agent poisoning—current status and future developments

Diagnostics and treatment of nerve agent poisoning—current status and future developments

Although 193 states have committed to the Chemical Weapons Convention and 98% of the declared chemical weapons stockpiles have been destroyed so far, nerve agent poisoning remains a lingering threat. The recent dissemination of sarin in Syria, the assassination of Kim Jong‐Nam in Malaysia, and the a...

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Veröffentlicht in:Annals of the New York Academy of Sciences 2020-11, Vol.1479 (1), p.13-28
Hauptverfasser: Amend, Niko, Niessen, Karin V., Seeger, Thomas, Wille, Timo, Worek, Franz, Thiermann, Horst
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Sprache:eng
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Acetylcholine receptors (muscarinic)
Anticonvulsants
Antidotes - therapeutic use
Biological & chemical weapons
Chemical weapons
Cholinesterase
Cholinesterase Reactivators - therapeutic use
countermeasures
Diagnostic systems
Humans
medical chemical defense
nerve agent poisoning
Nerve agents
Nerve Agents - toxicity
Organophosphate Poisoning - diagnosis
Organophosphate Poisoning - drug therapy
organophosphorus compounds
Oximes - therapeutic use
Poisoning
Receptors
Sarin
Sarin - toxicity
scavenger
United Kingdom
Weapons
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container_title Annals of the New York Academy of Sciences
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creator Amend, Niko
Niessen, Karin V.
Seeger, Thomas
Wille, Timo
Worek, Franz
Thiermann, Horst
description Although 193 states have committed to the Chemical Weapons Convention and 98% of the declared chemical weapons stockpiles have been destroyed so far, nerve agent poisoning remains a lingering threat. The recent dissemination of sarin in Syria, the assassination of Kim Jong‐Nam in Malaysia, and the assault on Sergei Skripal in the United Kingdom underline the need for effective treatment. The current therapeutic options of a muscarinic receptor antagonist, an oxime, and an anticonvulsant have been unchanged for decades. Therefore, new therapeutic strategies, for example, bioscavengers and receptor‐active substances, are promising concepts that have to be examined for their benefits and limitations. In order to facilitate rapid diagnosis in challenging clinical situations, point‐of‐care diagnostics and detection are of importance. Therapeutic guidance concerning the duration and success of the current oxime therapy via determination of the cholinesterase status can contribute to an optimal use of resources. In summary, the challenges of current and future therapies for nerve agent poisoning and key diagnostic devices will be discussed. Organophosphorus‐based nerve agent poisoning remains a lingering threat, which underlines the need for effective treatment. Current therapeutic options have been unchanged for decades. Therefore, new therapeutic strategies, such as bioscavengers and receptor‐active substances, need to be examined for their benefits and limitations. Our review focuses on current and future therapeutic developments and highlights diagnostic challenges for nerve agent exposure.
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subjects Acetylcholine receptors (muscarinic)
Anticonvulsants
Antidotes - therapeutic use
Biological & chemical weapons
Chemical weapons
Cholinesterase
Cholinesterase Reactivators - therapeutic use
countermeasures
Diagnostic systems
Humans
medical chemical defense
nerve agent poisoning
Nerve agents
Nerve Agents - toxicity
Organophosphate Poisoning - diagnosis
Organophosphate Poisoning - drug therapy
organophosphorus compounds
Oximes - therapeutic use
Poisoning
Receptors
Sarin
Sarin - toxicity
scavenger
United Kingdom
Weapons
title Diagnostics and treatment of nerve agent poisoning—current status and future developments
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