Naloxone Antagonizes Soman‐induced Central Respiratory Depression in Rats

Škrbić, Ranko; Stojiljković, Miloš P.; Ćetković, Slavko; Dobrić, Silva; Jeremic, Dejan; Vulović, Maja

doi:10.1111/bcpt.12745

Cited by 9 publications

(5 citation statements)

References 39 publications

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“…Naloxone has shown effectiveness in antagonizing soman (an OPC)-induced respiratory depression in rats by blocking endogenous opioid respiratory-control pathways that are independent of the stimulation of muscarinic receptors. These effects were also shown to be potentiated by coadministration of atropine 2 . Opioids induce respiratory depression via activation of μ-opioid receptors at the specific sites in the central nervous system including the pre-Bötzinger complex, a respiratory rhythm–generating area in the pons.…”

Section: Discussionmentioning

confidence: 98%

“…These effects were also shown to be potentiated by coadministration of atropine. 2 Opioids induce respiratory depression via activation of μ-opioid receptors at the specific sites in the central nervous system including the pre-Bötzinger complex, a respiratory rhythm-generating area in the pons. Opioid-induced respiratory depression is potentially fatal but may be reversed by the opioid receptor antagonist naloxone.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Organophosphate Versus Opioid Poisoning

et al. 2022

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Organophosphate Versus Opioid Poisoning

et al. 2022

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“…respiratory muscle fatigue. 8,9 Knowing that, a crucial point in therapy would be reactivation of AChE in brain tissue. 15 Because of that, non-quaternary organic compounds are introduced as novel antidotes in OP poisoning.…”

Section: Discussionmentioning

confidence: 99%

“…5 Unlike the OPs, oximes generally have a low degree of penetration through the BBB, because of which they have little to no ability to reactivate brain AChE. 7 Knowing that central respiratory depression is a main cause of death in OP intoxication, 8,9 when researching a new oxime, it is very important to determine the degree of its penetration through the BBB. Finding an oxime that is more penetrable, would mean a greater therapeutic success.…”

Section: The Marinković-maksimović Methods (Mm Method)mentioning

confidence: 99%

Preparing a rat brain tissue samples for acetylcholinesterase activity measurement: The MM method

Marinković¹,

Đukanović²,

Mandić-Kovačević³

et al. 2021

Scripta Medica

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Background/Aim: Organophosphorus compounds (OP) bind to acetylcholinesterase (AChE) causing an irreversible inhibition of the enzyme. When doing in vivo studies of OP intoxication, to precisely measure AChE activity in the brain tissue it is necessary to remove as much blood from the brain as possible. By doing so, interference of the OPs present in the blood is avoided. Usually this demands expensive equipment, therefore, the aim of this study was to find a simple and economical method to eliminate the blood from brain blood vessels. Methods: Wistar albino rats were divided into four groups named Control (C), Control washout (CW), Paraoxon (Pox) and Paraoxon washout (PoxW) group. Rats in Pox and PoxW were treated with 0.25 mg/kg paraoxon subcutaneously (sc), while C and CW received 1 mL/kg sc saline instead. The "Marinković-Maksimović" ("MM") method was performed in rats from PoxW and CW groups. Activity of AChE was measured both in erythrocyte lysate and in brain tissue using spectrophotometry. Results: Macroscopic examination revealed that the elimination of blood was achieved in CW and PoxW groups. Activity of AChE in homogenised brain tissue was expectedly lower in the Pox and PoxW group, when compared to C and CW group, respectively. The CW group had a lower value of AChE activity in the brain tissue compared to C group, while activity of AChE in the PoxW group was statistically higher than in the Pox group (p = 0.044). Conclusion: The MM method provides good elimination of blood from the brain. Together with blood, present confounding factors that interfere with analysis in homogenised brain tissue, were also eliminated.

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“…11 It is believed that even the central effects of nerve agents are consequence of the stimulation of muscarinic and nicotinic receptors in the brain, followed by the secondary stimulation of glutamatergic and opioidergic structures. 12 Poisoning with high doses of nerve agents brings Standard therapy is triple: administration of sufficiently high doses of atropine, AChE reactivators -oximes, such as pralidoxime salts (2-PAM or P2S), obidoxime (LüH-6) and asoxime (HI-6) and anticonvulsants, mainly diazepam or midazolam.14 Although atropine itself and especially when overdosed, exerts some adverse effects (tachycardia, xerostomia, impaired cognitive functions), it is essential to repeat the single shots of 2 mg each until the proper atropinisation is reached. It is a doctrinary position that mild atropine overdose is less dangerous than untreated anticholinestarese poisoning.…”

Section: Mechanism Of Toxicity Of Nerve Agents Signs and Symptomsmentioning

confidence: 99%