[26] Subsequent studies of the responses of freely moving rodents

[26] Subsequent studies of the responses of freely moving rodents, however, indicated that Metformin solubility dmso a single CSD event does not elicit significant pain behavior.[27] Furthermore, quantitative examination of the timing of migraine symptoms relative to aura

indicates that headache and other migraine symptoms commonly occur simultaneously with aura. In a large study of the efficacy of transcranial magnetic stimulation as a treatment for migraine, migraine symptoms were prospectively recorded in relation to aura symptoms.[28] Analysis of the data generated by this study indicates that the majority of patients reported headache, photophobia, and phonophobia within the same initial time window (15 minutes) that they began to experience aura symptoms.[29] This result suggests that the pain and associated symptoms of migraine are caused by parallel mechanisms occurring at the same time as the aura see more rather than as a direct downstream consequence of the aura. Previous single-photon emission computed tomography (CT), PET, CT, and magnetic

resonance imaging (MRI) studies have shown dramatic changes in blood flow, metabolism, and contrast enhancement during migraine aura, including prolonged aura and the aura of hemiplegic migraine.[30-45] Several recent studies added to the constantly expanding number of these case reports.[46-53] To briefly summarize, these studies show that a variety of physiological responses can be observed

during migraine aura, including hypoperfusion, hyperperfusion, hypometabolism, vasogenic edema, and breakdown of the blood–brain barrier. Clinical experience, as well as a few cases reports,[54] shows that many patients have normal standard CT or MRI studies during migraine aura, indicating that some of these changes may be the exception rather the rule and may only occur in cases of prolonged aura or aura associated with hemiplegic migraine. Although both increased and decreased perfusion may occur with aura,[47, 51] most imaging studies indicate that hypoperfusion occurs first. A study by Hansen et al demonstrated hypoperfusion in 2 hemiplegic learn more migraine patients who were imaged within an hour of onset of aura symptoms,[47] consistent with the original studies of Olesen and colleagues showing that the onset of migraine aura is associated with hypoperfusion, which is then followed by hyperperfusion (still during the aura phase).[30] Iizuka et al performed a series of imaging studies of multiple attacks of prolonged aura in patients with familial hemiplegic migraine type 2 (with a novel mutation in the ATP1A2 gene).[48] In these patients, migraine aura lasted 4-12 days. Neuroimaging studies revealed both hyperperfusion and hypoperfusion in the same patients; hyperperfusion occurred in the first 4 days, affecting the hemisphere contralateral to hemiplegia and in some cases associated with middle cerebral artery dilation.

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