Macro-to-micro cortical vascular imaging underlies regional differences in ischemic brain

The ability to non-invasively monitor and quantify hemodynamic responses down to the capillary level is important for improved diagnosis, treatment and management of neurovascular disorders, including stroke. We developed an integrated multi-functional imaging system, in which synchronized dual wave...

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Bibliographic Details
Published in:Scientific reports 2015-05, Vol.5 (1), p.10051-10051, Article 10051
Main Authors: Dziennis, Suzan, Qin, Jia, Shi, Lei, Wang, Ruikang K.
Format: Article
Language:English
Subjects:
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Angiography
Animals
Arteries
Blood
Blood flow
Brain Infarction - complications
Brain Infarction - pathology
Brain Infarction - physiopathology
Brain Ischemia - complications
Brain Ischemia - diagnosis
Brain Ischemia - pathology
Brain Ischemia - physiopathology
Capillaries - pathology
Capillaries - physiopathology
Cerebral blood flow
Cerebrovascular Circulation
Contrast Media
Cortex
Diagnostic Imaging
Hemoglobin
Hemoglobins - metabolism
Humanities and Social Sciences
Infarction, Middle Cerebral Artery - complications
Infarction, Middle Cerebral Artery - pathology
Infarction, Middle Cerebral Artery - physiopathology
Ischemia
Lasers
Male
Mice, Inbred C57BL
multidisciplinary
Neuroimaging
Optical Imaging
Oxygen - metabolism
Oxygenation
Regional differences
Reperfusion
Rodents
Science
Stroke
Therapeutic applications
Veins
Velocity
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Summary:The ability to non-invasively monitor and quantify hemodynamic responses down to the capillary level is important for improved diagnosis, treatment and management of neurovascular disorders, including stroke. We developed an integrated multi-functional imaging system, in which synchronized dual wavelength laser speckle contrast imaging (DWLS) was used as a guiding tool for optical microangiography (OMAG) to test whether detailed vascular responses to experimental stroke in male mice can be evaluated with wide range sensitivity from arteries and veins down to the capillary level. DWLS enabled rapid identification of cerebral blood flow (CBF), prediction of infarct area and hemoglobin oxygenation over the whole mouse brain and was used to guide the OMAG system to hone in on depth information regarding blood volume, blood flow velocity and direction, vascular architecture, vessel diameter and capillary density pertaining to defined regions of CBF in response to ischemia. OMAG-DWLS is a novel imaging platform technology to simultaneously evaluate multiple vascular responses to ischemic injury, which can be useful in improving our understanding of vascular responses under pathologic and physiological conditions and ultimately facilitating clinical diagnosis, monitoring and therapeutic interventions of neurovascular diseases.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep10051