Literature DB >> 21816771

Sodium MRI in a rat migraine model and a NEURON simulation study support a role for sodium in migraine.

Michael G Harrington1, Eduard Y Chekmenev, Victor Schepkin, Alfred N Fonteh, Xianghong Arakaki.   

Abstract

INTRODUCTION: Increased lumbar cerebrospinal fluid (CSF) sodium has been reported during migraine. We used ultra-high field MRI to investigate cranial sodium in a rat migraine model, and simulated the effects of extracellular sodium on neuronal excitability.
METHODS: Behavioral changes in the nitroglycerin (NTG) rat migraine model were determined from von Frey hair withdrawal response and photography. Central sensitization was measured by counting cFos-immunoreactive cells in the trigeminal nucleus caudalis (TNC). Sodium was quantified in vivo by ultra-high field sodium MRI at 21 Tesla. Effects of extracellular sodium on neuronal excitability were modeled using NEURON software.
RESULTS: NTG decreased von Frey withdrawal threshold (p=0.0003), decreased eyelid vertical height:width ratio (p<0.0001), increased TNC cFos stain (p<0.0001), and increased sodium between 7.5 and 17% in brain, intracranial CSF, and vitreous humor (p<0.05). Simulated neurons exposed to higher sodium have more frequent and earlier spontaneous action potentials, and corresponding earlier sodium and potassium currents.
CONCLUSIONS: In the rat migraine model, sodium rises to levels that increase neuronal excitability. We propose that rising sodium in CSF surrounding trigeminal nociceptors increases their excitability and causes pain and that rising sodium in vitreous humor increases retinal neuronal excitability and causes photosensitivity.

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Year:  2011        PMID: 21816771      PMCID: PMC3474349          DOI: 10.1177/0333102411408360

Source DB:  PubMed          Journal:  Cephalalgia        ISSN: 0333-1024            Impact factor:   6.292


  45 in total

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Review 2.  Capillary endothelial Na(+), K(+), ATPase transporter homeostasis and a new theory for migraine pathophysiology.

Authors:  Michael G Harrington; Alfred N Fonteh; Xianghong Arakaki; Robert P Cowan; Laurel E Ecke; Hailey Foster; Andreas F Hühmer; Roger G Biringer
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3.  Activation of meningeal nociceptors by cortical spreading depression: implications for migraine with aura.

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4.  Vital signs and cognitive function are not affected by 23-sodium and 17-oxygen magnetic resonance imaging of the human brain at 9.4 T.

Authors:  Ian C Atkinson; Rachel Sonstegaard; Neil H Pliskin; Keith R Thulborn
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5.  In vivo chlorine-35, sodium-23 and proton magnetic resonance imaging of the rat brain.

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Review 6.  Molecular genetics of migraine.

Authors:  Boukje de Vries; Rune R Frants; Michel D Ferrari; Arn M J M van den Maagdenberg
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Review 8.  Animal models of pain: progress and challenges.

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Authors:  P J Goadsby; A R Charbit; A P Andreou; S Akerman; P R Holland
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  15 in total

1.  Altered brainstem auditory evoked potentials in a rat central sensitization model are similar to those in migraine.

Authors:  Xianghong Arakaki; Gary Galbraith; Victor Pikov; Alfred N Fonteh; Michael G Harrington
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2.  Extracellular sodium modulates the excitability of cultured hippocampal pyramidal cells.

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3.  Sodium 3D COncentration MApping (COMA 3D) using (23)Na and proton MRI.

Authors:  Milton L Truong; Michael G Harrington; Victor D Schepkin; Eduard Y Chekmenev
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4.  Metabolic assessment of a migraine model using relaxation-enhanced 1 H spectroscopy at ultrahigh field.

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5.  Cerebral sodium (23Na) magnetic resonance imaging in patients with migraine - a case-control study.

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Review 7.  Computational modeling of peripheral pain: a commentary.

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8.  Na,K-ATPase alpha isoforms at the blood-cerebrospinal fluid-trigeminal nerve and blood-retina interfaces in the rat.

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9.  Dynamic sodium imaging at ultra-high field reveals progression in a preclinical migraine model.

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10.  Opposite reactivity of meningeal versus cortical microvessels to the nitric oxide donor glyceryl trinitrate evaluated in vivo with two-photon imaging.

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