Mapping of brain tissue hematocrit in glioma and acute stroke using a dual autoradiography approach.
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ABSTRACT: Hematocrit (Hct) determines the ability of blood to carry oxygen. While changes in systemic Hct are known to impact stroke or tumor control, changes in local (tissue) Hct (tHct) induced by these diseases have however received little attention. In this study, we evaluate tHct in acute stroke and in glioma models using a new approach to map tHct across the brain, a dual isotope autoradiography, based on injections of 125I-labeled albumin and 99mTc-lalbeled red blood cells in the same animal. For validation purpose, tHct was mapped in the rat brain (i) under physiological conditions, (ii) following erythropoietin injection, and (iii) following hemodilution. Then, tHct was then mapped in stroke (middle cerebral artery occlusion) and tumor models (9LGS and C6). The mean tHct values observed in healthy brains (tHct?=?29?±?1.3%), were modified as expected by erythropoietin (tHct?=?36.7?±?2.6%) and hemodilution (tHct?=?24.2?±?2.4%). Using the proposed method, we observed a local reduction, spatially heterogeneous, in tHct following acute stroke (tHct?=?19.5?±?2.5%) and in both glioma models (9LGS: tHct?=?18.5?±?2.3%, C6: tHct?=?16.1?±?1.2%). This reduction and this heterogeneity in tHct observed in stroke and glioma raises methodological issues in perfusion imaging techniques where tHct is generally overlooked and could impact therapeutic strategies.
SUBMITTER: Broisat A
PROVIDER: S-EPMC6026160 | biostudies-literature | 2018 Jun
REPOSITORIES: biostudies-literature
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