Tarique Benbow scite author profile

Ingestion of monosodium glutamate (MSG) causes headache, nausea, and craniofacial tenderness in healthy individuals. The present study explored whether MSG produces behavioural signs of headache, nausea, and changes in craniofacial sensitivity in rats. The behavior of male and female Sprague-Dawley rats was video recorded before and after intraperitoneal (i.p.) injections of MSG (1-1000 mg/kg), nitroglycerin (GTN, 10 mg/kg), or normal saline. Behaviors (grimace score, head-flicks, rearing, head scratches, facial grooming, lying-on-belly, and temporalis muscle region mechanical withdrawal threshold) were evaluated. Facial cutaneous temperature of the nose and forehead was measured before and after i.p. injections via infrared thermography. Plasma glutamate and calcitonin gene-related peptide concentrations after administration of 1000 mg/kg MSG were measured in anesthetized rats. Monosodium glutamate induced nocifensive, headache-like, and nausea-like behaviors in a dose-related manner but had no effect on mechanical threshold. Monosodium glutamate (1000 mg/kg) induced a significantly greater frequency of headache-like behavior in females but a longer duration of nausea-like behavior in males. Monosodium glutamate produced a prolonged increase in plasma glutamate and calcitonin gene-related peptide concentrations. Co-administration of the median effective dose of MSG (350 mg/kg) with GTN (10 mg/kg) amplified headache-like behaviors, induced significant craniofacial sensitivity, and produced increased nausea-like behaviour. Co-administration of sumatriptan or naproxen with MSG (1000 mg/kg) significantly attenuated MSG-induced nocifensive and headache-like behaviors. Our data suggest that systemic administration of MSG to rats induces behavioral correlates of headache and nausea. This model may offer another avenue for research on the mechanism and treatment of primary headache disorders such as migraine.

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Microemulsions as transdermal drug delivery systems for nonsteroidal anti-inflammatory drugs (NSAIDs): a literature review

Benbow

Campbell

2019

Drug Development and Industrial Pharmacy

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α1 adrenergic receptor activation has a dynamic effect on masticatory muscle afferent fibers

2020

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Dysregulation of the peripheral glutamatergic system: A key player in migraine pathogenesis?

Benbow

Cairns

2021

Cephalalgia

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Background Although the role of glutamate in migraine pathogenesis remains uncertain, there has been significant interest in the development of drug candidates that target glutamate receptors. Activation of trigeminovascular afferent fibers is now recognized as a crucial step to the onset of a migraine episode. New evidence suggests a dysfunction in peripheral glutamate regulation may play a role in this process. Objective To provide a narrative review of the role of peripheral glutamate dysfunction in migraine. Method A review of recent literature from neurobiological, pharmacological and genomic studies was conducted to support peripheral glutamate dysfunction as a potential element in migraine pathogenesis. Results Studies in rats suggest that elevated blood glutamate mechanically sensitizes trigeminal afferent fibers and stimulates the release of calcitonin-gene related peptide and other neuropeptides to promote and maintain neurogenic inflammation. These effects may be driven by upregulation of glutamate receptors, and modifications to reuptake and metabolic pathways of glutamate. Furthermore, genome wide association studies have found polymorphisms in glutamate receptor and transporter genes that are associated with migraine. Conclusion The role of peripheral glutamate signalling in the onset and maintenance of migraine is not completely elucidated and future studies are still needed to confirm its role in migraine pathogenesis.

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Peripheral N-methyl-d-aspartate receptor activation contributes to monosodium glutamate-induced headache but not nausea behaviours in rats

Benbow

Teja

Sheikhi

et al. 2022

Sci Rep

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Monosodium glutamate induces behaviors thought to reflect headache and nausea in rats. We explored the effects of the N-methyl-d-aspartate receptor antagonist (2R)-amino-5-phosphonovaleric acid, the inotropic glutamate receptor antagonist kynurenic acid, and the CGRP receptor antagonist olcegepant, on monosodium glutamate-induced increases in nocifensive, headache-like and nausea behaviours. Effects of these antagonists on motor function were examined with a rotarod. The effect of the dopamine receptor antagonist metoclopramide and the serotonin 3 receptor antagonist ondansetron on nausea behaviour was also assessed. (2R)-amino-5-phosphonovaleric acid, and to a lesser extent, kynurenic acid and olcegepant, reduced nocifensive and headache-like behaviours evoked by monosodium glutamate. No alteration in motor function by (2R)-amino-5-phosphonovaleric acid, kynurenic acid or olcegepant was observed. No sex-related differences in the effectiveness of these agents were identified. Nausea behaviour was significantly more pronounced in male than in female rats. Olcegepant, ondansetron and metoclopramide ameliorated this nausea behaviour in male rats. Ondansetron and metoclopramide also reduced headache-like behaviour in male rats. These findings suggest that peripheral N-methyl-d-aspartate receptor activation underlies monosodium glutamate-induced headache-like behaviour but does not mediate the nausea behaviour in rats.

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Tarique Benbow

Systemic administration of monosodium glutamate induces sexually dimorphic headache- and nausea-like behaviours in rats

Microemulsions as transdermal drug delivery systems for nonsteroidal anti-inflammatory drugs (NSAIDs): a literature review

α1 adrenergic receptor activation has a dynamic effect on masticatory muscle afferent fibers

Dysregulation of the peripheral glutamatergic system: A key player in migraine pathogenesis?

Peripheral N-methyl-d-aspartate receptor activation contributes to monosodium glutamate-induced headache but not nausea behaviours in rats

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