Quantification of Cerebral Perfusion With “Real-Time” Contrast-Enhanced Ultrasound

Direct and real-time assessment of cerebral hemodynamics is key to improving our understanding of cerebral blood flow regulation in health and disease states such as stroke. While a number of sophisticated imaging platforms enable assessment of cerebral perfusion, most are limited either spatially or temporally. Here, we applied transcranial contrast-enhanced ultrasound (CEU) to measure cerebral perfusion in real-time through the intact rat skull before, during and after ischemic stroke, induced by intraluminal filament middle cerebral artery occlusion (MCAO). We demonstrate expected decreases in cortical and striatal blood volume, flow velocity and perfusion during MCAO. After filament retraction, blood volume and perfusion increased two-fold above baseline, indicative of acute hyperperfusion. Adjacent brain regions to the ischemic area and the contralateral hemisphere had increased blood volume during MCAO. We assessed our data using wavelet analysis to demonstrate striking vasomotion changes in the ischemic and contralateral cortices during MCAO and reperfusion. In conclusion, we demonstrate the application of CEU for real-time assessment of cerebral hemodynamics and show that the ischemic regions exhibit striking hyperemia post-MCAO. Whether this post-stoke hyperperfusion is sustained long-term and contributes to stroke severity is not known.

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Contrast-enhanced ultrasound of the abdominal aorta – current status and future perspectives

VASA ◽

10.1024/0301-1526/a000749 ◽

2019 ◽

Vol 48 (2) ◽

pp. 115-125 ◽

Cited By ~ 4

Author(s):

Xin Li ◽

Daniel Staub ◽

Vasileios Rafailidis ◽

Mohammed Al-Natour ◽

Sanjeeva Kalva ◽

...

Keyword(s):

Real Time ◽

Vascular Diseases ◽

Aneurysm Rupture ◽

Vasa Vasorum ◽

Current Status ◽

Contrast Enhanced Ultrasound ◽

Aortic Diseases ◽

Cross Sectional ◽

Vascular Abnormalities ◽

Contrast Enhanced

Abstract. Ultrasound has been established as an important diagnostic tool in assessing vascular abnormalities. Standard B-mode and Doppler techniques have inherent limitations with regards to detection of slow flow and small vasculature. Contrast-enhanced ultrasound (CEUS) is a complementary tool and is useful in assessing both the macro- and microvascular anatomy of the aorta. CEUS can also provide valuable physiological information in real-time scanning sessions due to the physical and safety profiles of the administered microbubbles. From a macrovascular perspective, CEUS has been used to characterize aortic aneurysm rupture, dissection and endoleaks post-EVAR repair. With regard to microvasculature CEUS enables imaging of adventitial vasa vasorum thereby assessing aortic inflammation processes, such as monitoring treatment response in chronic periaortitis. CEUS may have additional clinical utility since adventitial vasa vasorum has important implications in the pathogenesis of aortic diseases. In recent years, there have been an increasing number of studies comparing CEUS to cross-sectional imaging for aortic applications. For endoleak surveillance CEUS has been shown to be equal or in certain cases superior in comparison to CT angiography. The recent advancement of CEUS software along with the ongoing development of drug-eluting contrast microbubbles has allowed improved targeted detection and real-time ultrasound guided therapy for aortic vasa vasorum inflammation and neovascularization in animal models. Therefore, CEUS is uniquely suited to comprehensively assess and potentially treat aortic vascular diseases in the future.

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Faculty Opinions recommendation of Contrast-enhanced ultrasound reveals real-time spatial changes in vascular perfusion during early implantation in the macaque uterus.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.10254956.11047054 ◽

2011 ◽

Author(s):

Thaddeus Golos ◽

Gennadiy Bondarenko

Keyword(s):

Real Time ◽

Contrast Enhanced Ultrasound ◽

Vascular Perfusion ◽

Spatial Changes ◽

Contrast Enhanced

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Contrast‐enhanced ultrasound imaging can be used to evaluate fetal cerebral perfusion: potential implications for fetal surgery

Translational Medicine Communications ◽

10.1186/s41231-021-00087-0 ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Kendall M. Lawrence ◽

Barbara E. Coons ◽

Anush Sridharan ◽

Avery C. Rossidis ◽

Marcus G. Davey ◽

...

Keyword(s):

Carbon Dioxide ◽

Cerebral Perfusion ◽

Fetal Surgery ◽

Time Dependent ◽

Contrast Enhanced Ultrasound ◽

Acid Base ◽

Fetal Sheep ◽

Contrast Enhanced ◽

Support Device ◽

Acid Base Status

Abstract Background Fetal surgery is increasingly performed to correct congenital defects. Currently, fetal brain perfusion cannot be assessed intra-operatively. The purpose of this study was to determine if contrast-enhanced ultrasound (CEUS) could be used to monitor fetal cerebral perfusion during fetal surgery and if parameters correlate with fetal hemodynamics or acid/base status. Methods Cannulated fetal sheep were insufflated with carbon dioxide gas in an extra-uterine support device and in utero to mimic fetal surgery. Fetal heart rate, mean arterial pressure, and arterial blood gases were serially measured. CEUS examinations of the brain were performed and time-dependent metrics were quantified to evaluate perfusion. The relationships between measured parameters were determined with mixed linear effects models or two-way repeated measures analysis of variance. Results 6 fetal sheep (113 ± 5 days) insufflated at multiple time-points (n = 20 experiments) in an extra-uterine support device demonstrated significant correlations between time-dependent perfusion parameters and fetal pH and carbon dioxide levels. In utero, 4 insufflated fetuses (105 ± 1 days) developed hypercarbic acidosis and had reductions in cerebral perfusion parameters compared to age-matched controls (n = 3). There was no significant relationship between cerebral perfusion parameters and fetal hemodynamics. Conclusions CEUS-derived cerebral perfusion parameters can be measured during simulated fetal surgery and strongly correlate with fetal acid/base status.

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