Photoacoustic imaging of in vivo hemodynamic responses to sodium nitroprusside.
Abstract
The in vivo hemodynamic impact of sodium nitroprusside (SNP), a widely used antihypertensive
agent, has not been well studied. Here, we applied functional optical-resolution photoacoustic
microscopy (OR-PAM) to study the hemodynamic responses to SNP in mice in vivo. As
expected, after the application of SNP, the systemic blood pressure (BP) was reduced
by 53%. The OR-PAM results show that SNP induced an arterial vasodilation of 24% and
23% in the brain and skin, respectively. A weaker venous vasodilation of 9% and 5%
was also observed in the brain and skin, respectively. The results show two different
types of blood oxygenation response. In mice with decreased blood oxygenation, the
arterial and venous oxygenation was respectively reduced by 6% and 13% in the brain,
as well as by 7% and 18% in the skin. In mice with increased blood oxygenation, arterial
and venous oxygenation was raised by 4% and 22% in the brain, as well as by 1% and
9% in the skin. We observed venous change clearly lagged the arterial change in the
skin, but not in the brain. Our results collectively show a correlation among SNP
induced changes in systemic BP, vessel size and blood oxygenation.
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https://hdl.handle.net/10161/23235Published Version (Please cite this version)
10.1002/jbio.202000478Publication Info
(2021). Photoacoustic imaging of in vivo hemodynamic responses to sodium nitroprusside. Journal of biophotonics. pp. e202000478. 10.1002/jbio.202000478. Retrieved from https://hdl.handle.net/10161/23235.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
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Show full item recordScholars@Duke
Ulrike Hoffmann
Assistant Professor of Anesthesiology
Huaxin Sheng
Associate Professor in Anesthesiology
We have successfully developed various rodent models of brain and spinal cord injuries
in our lab, such as focal cerebral ischemia, global cerebral ischemia, head trauma,
subarachnoid hemorrhage, intracerebral hemorrhage, spinal cord ischemia and compression
injury. We also established cardiac arrest and hemorrhagic shock models for studying
multiple organ dysfunction. Our current studies focus on two projects. One is to
examine the efficacy of catalytic antioxidant in treating cerebral is
Wei Yang
Associate Professor in Anesthesiology
Junjie Yao
Associate Professor of Biomedical Engineering
Our mission at PI-Lab is to develop state-of-the-art photoacoustic tomography (PAT)
technologies and translate PAT advances into diagnostic and therapeutic applications,
especially in functional brain imaging and early cancer theranostics. PAT is the most
sensitive modality for imaging rich optical absorption contrast over a wide range
of spatial scales at high speed, and is one of the fastest growing biomedical imaging
technologies. Using numerous endogenous and exogenous contrasts, PAT can
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