2017
DOI: 10.1038/s41598-017-01284-4
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Spreading depolarization remarkably exacerbates ischemia-induced tissue acidosis in the young and aged rat brain

Abstract: Spreading depolarizations (SDs) occur spontaneously in the cerebral cortex of subarachnoid hemorrhage, stroke or traumatic brain injury patients. Accumulating evidence prove that SDs exacerbate focal ischemic injury by converting zones of the viable but non-functional ischemic penumbra to the core region beyond rescue. Yet the SD-related mechanisms to mediate neurodegeneration remain poorly understood. Here we show in the cerebral cortex of isoflurane-anesthetized, young and old laboratory rats, that SDs propa… Show more

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Cited by 49 publications
(96 citation statements)
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“…In addition, spectroscopic measurements using multiple wavelengths-rather than a single light source of a specific, narrow rangecan yield quantitative data on hemoglobin saturation parallel with relative changes in CBF assessed by LSCI (Dunn et al 2003). Finally, LSCI has been very successfully integrated into multi-modal imaging systems, which visualize membrane potential changes in the cerebral cortex (i.e., the intensity of the optical signal emitted by a voltage-sensitive fluorescent dye increases with decreasing transmembrane potential) (Farkas et al 2010;Obrenovitch et al 2009), or image variations of pH in the nervous tissue (i.e., fluorescence intensity of a pH-sensitive dye increases with deepening acidosis) (Menyhart et al 2017). These approaches are highly pertinent and very powerful, because the exact spatial and temporal match of individual modalities offers the opportunity to draw specific conclusions about their coupling patterns (i.e., neuronal activation, metabolic status, and CBF).…”
mentioning
confidence: 99%
“…In addition, spectroscopic measurements using multiple wavelengths-rather than a single light source of a specific, narrow rangecan yield quantitative data on hemoglobin saturation parallel with relative changes in CBF assessed by LSCI (Dunn et al 2003). Finally, LSCI has been very successfully integrated into multi-modal imaging systems, which visualize membrane potential changes in the cerebral cortex (i.e., the intensity of the optical signal emitted by a voltage-sensitive fluorescent dye increases with decreasing transmembrane potential) (Farkas et al 2010;Obrenovitch et al 2009), or image variations of pH in the nervous tissue (i.e., fluorescence intensity of a pH-sensitive dye increases with deepening acidosis) (Menyhart et al 2017). These approaches are highly pertinent and very powerful, because the exact spatial and temporal match of individual modalities offers the opportunity to draw specific conclusions about their coupling patterns (i.e., neuronal activation, metabolic status, and CBF).…”
mentioning
confidence: 99%
“…It has been accepted that PID plays a central role in the development of cerebral ischemic injury [16]. Occurrence of PID could remarkably exacerbate the tissue acidosis and the severity of the tissue injury [72]. Moreover, PID caused vasoconstriction and CBF reduction, which impeded the brain recovery from stroke [33,73].…”
Section: Discussionmentioning
confidence: 99%
“…Earlier SD during CA may be neuroprotective It has been posited in multiple recent studies that SD is harmful to the brain, 12,24,67,68 although this hypothesis is often focused on prolonged SD or repetitive SD events. 68,69 However, several studies have suggested that mitochondrial processes that are important in SD can signal pathways to protect neurons and endothelium. 70,71 Indeed, multiple studies have shown beneficial properties of SD, including preconditioning, upregulation of growth factors, and neurogenesisis.…”
Section: Discussionmentioning
confidence: 99%