Guanhua Jiang scite author profile

Guanhua Jiang

4Publications

46Citation Statements Received

94Citation Statements Given

How they've been cited

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116

Affiliations

Kyoto University, Beijing University of Posts and Telecommunications

Publications

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A Resilient, Non-neuronal Source of the Spatiotemporal Lag Structure Detected by BOLD Signal-Based Blood Flow Tracking

2017

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Recent evidence has suggested that blood oxygenation level-dependent (BOLD) signals convey information about brain circulation via low frequency oscillation of systemic origin (sLFO) that travels through the vascular structure (“lag mapping”). Prompted by its promising application in both physiology and pathology, we examined this signal component using multiple approaches. A total of 30 healthy volunteers were recruited to perform two reproducibility experiments at 3 Tesla using multiband echo planar imaging. The first experiment investigated the effect of denoising and the second was designed to study the effect of subject behavior on lag mapping. The lag map's intersession test-retest reproducibility and image contrast were both diminished by removal of either the neuronal or the non-neuronal (e.g., cardiac, respiratory) components by independent component analysis-based denoising, suggesting that the neurovascular coupling also comprises a part of the BOLD lag structure. The lag maps were, at the same time, robust against local perfusion increases due to visuomotor task and global changes in perfusion induced by breath-holding at the same level as the intrasession reliability. The lag structure was preserved after time-locked averaging to the visuomotor task and breath-holding events, while any preceding signal changes were canceled out for the visuomotor task, consistent with the passive effect of neurovascular coupling in the venous side of the vasculature. These findings support the current assumption that lag mapping primarily reflects vascular structure despite the presence of sLFO perturbation of neuronal or non-neuronal origin and, thus, emphasize the vascular origin of the lag map, encouraging application of BOLD-based blood flow tracking.

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Bidirectional Pathway Feature Pyramid Networks and Reverse Scale-Transfer Layer for Detecting Mult-Scale Ships

Jiang

You

et al. 2021

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Non-invasive measurement of blood arrival, drainage and transit times using functional MRI signal

Jiang

2017

Journal of the Neurological Sciences

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Evaluation of BCAS1-positive immature oligodendrocytes after cerebral ischemic stroke and SVD

Jiang

Ayaki

Maki

et al. 2023

Neuroscience Letters

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Guanhua Jiang

A Resilient, Non-neuronal Source of the Spatiotemporal Lag Structure Detected by BOLD Signal-Based Blood Flow Tracking

Bidirectional Pathway Feature Pyramid Networks and Reverse Scale-Transfer Layer for Detecting Mult-Scale Ships

Non-invasive measurement of blood arrival, drainage and transit times using functional MRI signal

Evaluation of BCAS1-positive immature oligodendrocytes after cerebral ischemic stroke and SVD

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