Cindy Acon-Chen scite author profile

Cindy Acon-Chen

4Publications

14Citation Statements Received

78Citation Statements Given

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182

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United States Army

Publications

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Evaluation of acetylcholine, seizure activity and neuropathology following high-dose nerve agent exposure and delayed neuroprotective treatment drugs in freely moving rats

Acon-Chen¹,

Koenig²,

Smith³

et al. 2016

Toxicology Mechanisms and Methods

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Organophosphorus nerve agents such as soman (GD) inhibit acetylcholinesterase, producing an excess of acetylcholine (ACh), which results in respiratory distress, convulsions and status epilepticus that leads to neuropathology. Several drugs (topiramate, clobazam, pregnanolone, allopregnanolone, UBP 302, cyclopentyladenosine [CPA], ketamine, midazolam and scopolamine) have been identified as potential neuroprotectants that may terminate seizures and reduce brain damage. To systematically evaluate their efficacy, this study employed in vivo striatal microdialysis and liquid chromatography to respectively collect and analyze extracellular ACh in freely moving rats treated with these drugs 20 min after seizure onset induced by a high dose of GD. Along with microdialysis, EEG activity was recorded and neuropathology assessed at 24 h. GD induced a marked increase of ACh, which peaked at 30 min post-exposure to 800% of control levels and then steadily decreased toward baseline levels. Approximately 40 min after treatment, only midazolam (10 mg/kg) and CPA (60 mg/kg) caused a significant reduction of ACh levels, with CPA reducing ACh levels more rapidly than midazolam. Both drugs facilitated a return to baseline levels at least 55 min after treatment. At 24 h, only animals treated with CPA (67%), midazolam (18%) and scopolamine (27%) exhibited seizure termination. While all treatments except for topiramate reduced neuropathology, CPA, midazolam and scopolamine showed the greatest reduction in pathology. Our results suggest that delayed treatment with CPA, midazolam, or scopolamine is effective at reducing GD-induced seizure activity and neuropathology, with CPA and midazolam capable of facilitating a reduction in GD-induced ACh elevation.

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Comparison of extracellular striatal acetylcholine and brain seizure activity following acute exposure to the nerve agents cyclosarin and tabun in freely moving guinea pigs

O‘Donnell¹,

Acon-Chen²,

McDonough³

et al. 2010

Toxicology Mechanisms and Methods

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Organophosphorus nerve agents like cyclosarin and tabun are potent cholinesterase inhibitors. The inhibition of acetylcholinesterase, which is responsible for breaking down acetylcholine (ACh) at the synapse and neuromuscular junction, leads to a build-up of extracellular ACh and a series of toxic consequences including hypersecretion, tremor, convulsion/seizure, respiratory distress, coma, and death. This study employed simultaneous and continuous electroencephalographic recording and striatal microdialysis collection for quantification of ACh changes (via subsequent HPLC analysis) during acute exposure to a 1.0 × LD(50) subcutaneous dose of either cyclosarin or tabun to investigate differences in cholinergic and behavioral effects. Information about the unique mechanisms and consequences of different nerve agents is intended to aid in the development of broad-spectrum medical countermeasures for nerve agents. At the dose administered, non-seizure and sustained seizure responses were observed in both agent groups and in the tabun-exposed group some subjects experienced an unsustained seizure response. Significant extracellular ACh increases were only observed in seizure groups. Cyclosarin and tabun were found to exhibit some unique cholinergic and ictogenic characteristics. Lethality only occurred in subjects experiencing sustained seizure, and there was no difference in lethality between agent groups that progressed to sustained seizure.

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Soman-induced toxicity, cholinesterase inhibition and neuropathology in adult male Göttingen minipigs

Lumley

Marrero‐Rosado

et al. 2021

Toxicology Reports

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Intramuscularly administered A1 adenosine receptor agonists as delayed treatment for organophosphorus nerve agent-induced Status Epilepticus

Loughery¹,

Whitten²,

Acon-Chen³

et al. 2021

Toxicology and Applied Pharmacology

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Cindy Acon-Chen

Evaluation of acetylcholine, seizure activity and neuropathology following high-dose nerve agent exposure and delayed neuroprotective treatment drugs in freely moving rats

Comparison of extracellular striatal acetylcholine and brain seizure activity following acute exposure to the nerve agents cyclosarin and tabun in freely moving guinea pigs

Soman-induced toxicity, cholinesterase inhibition and neuropathology in adult male Göttingen minipigs

Intramuscularly administered A1 adenosine receptor agonists as delayed treatment for organophosphorus nerve agent-induced Status Epilepticus

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