Yuqian Mei scite author profile

The Multiple-Network Poroelastic Theory (MPET) is a numerical model to characterize the transport of multiple fluid networks in the brain, which overcomes the problem of conducting separate analyses on individual fluid compartments and losing the interactions between tissue and fluids, in addition to the interaction between the different fluids themselves. In this paper, the blood perfusion results from MPET modeling are partially validated using cerebral blood flow (CBF) data obtained from arterial spin labeling (ASL) magnetic resonance imaging (MRI), which uses arterial blood water as an endogenous tracer to measure CBF. Two subjects—one healthy control and one patient with unilateral middle cerebral artery (MCA) stenosis are included in the validation test. The comparison shows several similarities between CBF data from ASL and blood perfusion results from MPET modeling, such as higher blood perfusion in the gray matter than in the white matter, higher perfusion in the periventricular region for both the healthy control and the patient, and asymmetric distribution of blood perfusion for the patient. Although the partial validation is mainly conducted in a qualitative way, it is one important step toward the full validation of the MPET model, which has the potential to be used as a testing bed for hypotheses and new theories in neuroscience research.

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Computed tomography-based hemodynamic index for aortic dissection

Xu¹,

Xiong²,

Han³

et al. 2021

The Journal of Thoracic and Cardiovascular Surgery

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Multi-stage learning for segmentation of aortic dissections using a prior aortic anatomy simplification

Chen

Zhang

Mei

et al. 2021

Medical Image Analysis

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Flow analysis of aortic dissection: comparison of inflow boundary conditions for computational models based on 4D PCMRI and Doppler ultrasound

Liang

et al. 2021

Computer Methods in Biomechanics and Biomedical Engineering

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Yuqian Mei

On the Validation of a Multiple-Network Poroelastic Model Using Arterial Spin Labeling MRI Data

Computed tomography-based hemodynamic index for aortic dissection

Multi-stage learning for segmentation of aortic dissections using a prior aortic anatomy simplification

Flow analysis of aortic dissection: comparison of inflow boundary conditions for computational models based on 4D PCMRI and Doppler ultrasound

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