Your search keyword '"Nerve Agents pharmacology"' showing total 3 results

1. Neuroprotectant Activity of Novel Water-Soluble Synthetic Neurosteroids on Organophosphate Intoxication and Status Epilepticus-Induced Long-Term Neurological Dysfunction, Neurodegeneration, and Neuroinflammation.

Author

Reddy DS, Singh T, Ramakrishnan S, Huber M, and Wu X

Subjects

Rats, Animals, Isoflurophate pharmacology, Midazolam pharmacology, Neuroinflammatory Diseases, Brain, Rats, Sprague-Dawley, Seizures drug therapy, Organophosphates pharmacology, Memory Disorders pathology, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use, Neurosteroids therapeutic use, Nerve Agents pharmacology, Status Epilepticus chemically induced, Status Epilepticus drug therapy, Status Epilepticus pathology, Organophosphate Poisoning drug therapy, Organothiophosphorus Compounds

Abstract

Organophosphates (OPs) and nerve agents are potent neurotoxic compounds that cause seizures, status epilepticus (SE), brain injury, or death. There are persistent long-term neurologic and neurodegenerative effects that manifest months to years after the initial exposure. Current antidotes are ineffective in preventing these long-term neurobehavioral and neuropathological changes. Additionally, there are few effective neuroprotectants for mitigating the long-term effects of acute OP intoxication. We have pioneered neurosteroids as novel anticonvulsants and neuroprotectants for OP intoxication and seizures. In this study, we evaluated the efficacy of two novel synthetic, water-soluble neurosteroids, valaxanolone (VX) and lysaxanolone (LX), in combating the long-term behavioral and neuropathological impairments caused by acute OP intoxication and SE. Animals were exposed to the OP nerve agent surrogate diisopropylfluorophosphate (DFP) and were treated with VX or LX in addition to midazolam at 40 minutes postexposure. The extent of neurodegeneration, along with various behavioral and memory deficits, were assessed at 3 months postexposure. VX significantly reduced deficits of aggressive behavior, anxiety, memory, and depressive-like traits in control (DFP-exposed, midazolam-treated) animals; VX also significantly prevented the DFP-induced chronic loss of NeuN(+) principal neurons and PV(+) inhibitory neurons in the hippocampus and other regions. Additionally, VX-treated animals exhibited a reduced inflammatory response with decreased GFAP(+) astrogliosis and IBA1(+) microgliosis in the hippocampus, amygdala, and other regions. Similarly, LX showed significant improvement in behavioral and memory deficits, and reduced neurodegeneration and cellular neuroinflammation. Together, these results demonstrate the neuroprotectant effects of the novel synthetic neurosteroids in mitigating the long-term neurologic dysfunction and neurodegeneration associated with OP exposure. SIGNIFICANCE STATEMENT: Survivors of nerve agents and organophosphate (OP) exposures suffer from long-term neurological deficits. Currently, there is no specific drug therapy for mitigating the impact of OP exposure. However, novel synthetic neurosteroids that activate tonic inhibition provide a viable option for treating OP intoxication. The data from this study indicates the neuroprotective effects of synthetic, water-soluble neurosteroids for attenuation of long-term neurological deficits after OP intoxication. These findings establish valaxanolone and lysaxanolone as potent and efficacious neuroprotectants suitable for injectable dosing., (Copyright © 2024 by The Author(s).)

Published

2024

2. Temporal Effects of 2% Pilocarpine Ophthalmic Solution on Human Pupil Size and Accommodation.

Author

Kinney M, Johnson AD, Reddix M, and McCann MB

Subjects

Accommodation, Ocular drug effects, Adolescent, Adult, Female, Humans, Male, Nerve Agents adverse effects, Nerve Agents pharmacology, Nerve Agents poisoning, Ophthalmic Solutions administration & dosage, Ophthalmic Solutions pharmacology, Organophosphate Poisoning diagnosis, Organophosphate Poisoning physiopathology, Pilocarpine pharmacology, Pupil, Visual Acuity drug effects, Weights and Measures instrumentation, Miosis physiopathology, Organophosphate Poisoning complications, Pilocarpine administration & dosage, Time Factors

Abstract

Introduction: First responders and those who work with organophosphate (OP) compounds can experience ocular symptoms similar to those caused by exposure to low levels of nerve agents. This study was designed to examine the efficacy of a safe, clinically available, simulant that reproduces ocular symptoms associated with low-level OP exposure. Among these ocular symptoms are a constriction of the pupils (miosis), decreased visual acuity, and changes in accommodation., Materials and Methods: Volunteers aged 18-40 were assigned to groups receiving either a two-drop or three-drop dose of FDA approved 2% pilocarpine ophthalmic solution. Baseline visual performance measurements were taken before eye drop instillation and a timer was started following the first drop of pilocarpine. Once eye drops were administered, visual performance including distant and near vision, pupil size, and accommodation were measured every 5 minutes for 2 hours., Results: Both groups experienced significant miosis in excess of 90 minutes. Visual acuity was significantly reduced because of accommodative changes. The three-drop group experienced longer lasting combined effects when compared to the two-drop group., Conclusions: 2% pilocarpine ophthalmic solution can safely simulate major ocular symptoms of OP exposure for behavioral research studies for at least 60 minutes., (© Association of Military Surgeons of the United States 2020. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

3. Novichok: a murderous nerve agent attack in the UK.

Author

Vale JA, Marrs TC OBE, and Maynard RL CBE

Subjects

Adult, England, Female, History, 21st Century, Humans, Male, Middle Aged, Treatment Outcome, Homicide, Nerve Agents pharmacology, Nerve Agents poisoning, Organophosphate Poisoning mortality, Organophosphate Poisoning therapy

Published

2018