Browsing by Author "Farrell, Jordan"
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- ItemOpen AccessCharacterization, Mechanism, and Treatment of Postictal Hypoperfusion/Hypoxia(2017) Farrell, Jordan; Teskey, G. CampbellFollowing seizure cessation, specific behavioural impairments emerge that reflect the networks involved in ictal activity and extend for tens of minutes to hours. Postictal behavioural dysfunction is epitomized by Todd’s Paresis: limb weakness or paralysis following seizures that begin within or spread to motor cortex. This observation was described over a century ago, yet still lacks physiological explanation and therapies. The similarities shared between postictal behavioural dysfunction and neurological deficits following stroke suggest a potential common mechanism. I hypothesized that seizures result in a period of severe hypoperfusion/hypoxia that is responsible for behavioural impairment and not the seizure per se. Systematic characterization of local blood flow and tissue oxygen levels following focal seizures revealed a period of severe hypoperfusion/hypoxia (~50% reduction in blood flow, pO2 < 10mmHg) that often lasted over an hour in several rodent seizure models and persons with epilepsy. Cyclooxygenase-2 and L-type calcium channels were identified as key molecular targets that mediate local vasoconstriction. Further interrogation of the mechanism determined that the canonical cyclooxygenase-2 signalling cascade, involving oxygenation of arachidonic acid to prostaglandins, was not responsible for this phenomenon. Instead, oxygenation of the endocannabinoid, 2- arachidonoylglyerol, which yields novel prostaglandin glycerol esters, was identified as the primary pathway mediating severe postictal hypoperfusion/hypoxia. Thus, disrupting cyclooxygenase-2 function or L-type calcium channel activity prevented the expression of this pathological event. Inhibition of either target, which blocked hypoxia but not seizures, revealed that severe postictal hypoperfusion/hypoxia is responsible for postictal memory deficits and Todd’s paresis. These findings may extend to several negative features of epilepsy including other acute behavioural impairments, sudden unexpected death in epilepsy, anatomical abnormalities, epileptogenesis, and interictal comorbidities. This research identifies a novel, testable theory for epilepsy which places severe postictal hypoperfusion/hypoxia as a causal mechanism behind epilepsy pathology and behavioural dysfunction. Most importantly, the molecular targets identified herein may ultimately lead to new therapies for untreated aspects of epilepsy and improve quality of life.
- ItemOpen AccessPostictal behavioural impairments are due to a severe prolonged hypoperfusion/ hypoxia event that is COX-2 dependent(eLife Sciences Publications Ltd, 2016-11-22) Farrell, Jordan; Gaxiola-Valdez, Ismael; Wolff, Marshal; David, Laurence; Dika, Haruna; Geeraert, Bryce; Wang, X Rachel; Singh, Shaily; Spanswick, Simon; Dunn, Jeffrey F.; Antle, Michael; Federico, Paolo; Teskey, G CampbellAbstract Seizures are often followed by sensory, cognitive or motor impairments during the postictal phase that show striking similarity to transient hypoxic/ischemic attacks. Here we show that seizures result in a severe hypoxic attack confined to the postictal period. We measured brain oxygenation in localized areas from freely-moving rodents and discovered a severe hypoxic event (pO2 < 10 mmHg) after the termination of seizures. This event lasted over an hour, is mediated by hypoperfusion, generalizes to people with epilepsy, and is attenuated by inhibiting cyclooxygenase-2 or L-type calcium channels. Using inhibitors of these targets we separated the seizure from the resulting severe hypoxia and show that structure specific postictal memory and behavioral impairments are the consequence of this severe hypoperfusion/hypoxic event. Thus, epilepsy is much more than a disease hallmarked by seizures, since the occurrence of postictal hypoperfusion/hypoxia results in a separate set of neurological consequences that are currently not being treated and are preventable.