Literature DB >> 21940458

"Overshoot" of O₂ is required to maintain baseline tissue oxygenation at locations distal to blood vessels.

Anna Devor1, Sava Sakadzic, Payam A Saisan, Mohammad A Yaseen, Emmanuel Roussakis, Vivek J Srinivasan, Sergei A Vinogradov, Bruce R Rosen, Richard B Buxton, Anders M Dale, David A Boas.   

Abstract

In vivo imaging of cerebral tissue oxygenation is important in defining healthy physiology and pathological departures associated with cerebral disease. We used a recently developed two-photon microscopy method, based on a novel phosphorescent nanoprobe, to image tissue oxygenation in the rat primary sensory cortex in response to sensory stimulation. Our measurements showed that a stimulus-evoked increase in tissue pO₂ depended on the baseline pO₂ level. In particular, during sustained stimulation, the steady-state pO₂ at low-baseline locations remained at the baseline, despite large pO₂ increases elsewhere. In contrast to the steady state, where pO₂ never decreased below the baseline, transient decreases occurred during the "initial dip" and "poststimulus undershoot." These results suggest that the increase in blood oxygenation during the hemodynamic response, which has been perceived as a paradox, may serve to prevent a sustained oxygenation drop at tissue locations that are remote from the vascular feeding sources.

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Year:  2011        PMID: 21940458      PMCID: PMC3188944          DOI: 10.1523/JNEUROSCI.1968-11.2011

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  30 in total

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Review 6.  Mechanisms Mediating Functional Hyperemia in the Brain.

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Review 10.  The roadmap for estimation of cell-type-specific neuronal activity from non-invasive measurements.

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