Quantitative pulsatility measurements using 3D Dynamic Ultrasound Localization Microscopy

A rise in blood flow velocity variations (i.e., pulsatility) in the brain, caused by the stiffening of upstream arteries, is associated with cognitive impairment and neurodegenerative diseases. The study of this phenomenon requires brain-wide pulsatility measurements, with high penetration depth and...

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Published in	arXiv.org
Main Authors	Bourquin, Chloé, Porée, Jonathan, Brice Rauby, Perrot, Vincent, Ghigo, Nin, Belgharbi, Hatim, Bélanger, Samuel, Ramos-Palacios, Gerardo, Cortés, Nelson, Ladret, Hugo, Ikan, Lamyae, Casanova, Christian, Lesage, Frédéric, Provost, Jean
Format	Paper
Language	English
Published	Ithaca Cornell University Library, arXiv.org 25.03.2023
Subjects	Abnormalities Arteries Biomarkers Blood flow Blood vessels Brain Flow velocity Hemodynamics Localization Microscopy Penetration depth Stiffening Ultrasonic imaging
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Abstract	A rise in blood flow velocity variations (i.e., pulsatility) in the brain, caused by the stiffening of upstream arteries, is associated with cognitive impairment and neurodegenerative diseases. The study of this phenomenon requires brain-wide pulsatility measurements, with high penetration depth and high spatiotemporal resolution. The development of Dynamic Ultrasound Localization Microscopy (DULM), based on ULM, has enabled pulsatility measurements in the rodent brain in 2D. However, 2D imaging accesses only one slice of the brain and measures biased velocities due to 2D projection. Herein, we present 3D DULM, which can extract quantitative pulsatility measurements in the cat brain with craniotomy and in the whole mouse brain through the skull, showing a wide range of flow hemodynamics in both large and small vessels. We highlighted a decrease in pulsatility along the vascular tree in the cat brain, and performed an intra-animal validation of the method by showing consistent measurements between the two sides of the Willis circle in the mouse brain. Our study provides the first step towards a new biomarker that would allow the detection of dynamic abnormalities in microvessels in the whole brain volume, which could be linked to early signs of neurodegenerative diseases.
AbstractList	A rise in blood flow velocity variations (i.e., pulsatility) in the brain, caused by the stiffening of upstream arteries, is associated with cognitive impairment and neurodegenerative diseases. The study of this phenomenon requires brain-wide pulsatility measurements, with high penetration depth and high spatiotemporal resolution. The development of Dynamic Ultrasound Localization Microscopy (DULM), based on ULM, has enabled pulsatility measurements in the rodent brain in 2D. However, 2D imaging accesses only one slice of the brain and measures biased velocities due to 2D projection. Herein, we present 3D DULM, which can extract quantitative pulsatility measurements in the cat brain with craniotomy and in the whole mouse brain through the skull, showing a wide range of flow hemodynamics in both large and small vessels. We highlighted a decrease in pulsatility along the vascular tree in the cat brain, and performed an intra-animal validation of the method by showing consistent measurements between the two sides of the Willis circle in the mouse brain. Our study provides the first step towards a new biomarker that would allow the detection of dynamic abnormalities in microvessels in the whole brain volume, which could be linked to early signs of neurodegenerative diseases.
Author	Ghigo, Nin Bourquin, Chloé Porée, Jonathan Lesage, Frédéric Ladret, Hugo Brice Rauby Bélanger, Samuel Cortés, Nelson Provost, Jean Belgharbi, Hatim Perrot, Vincent Ikan, Lamyae Casanova, Christian Ramos-Palacios, Gerardo
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SubjectTerms	Abnormalities Arteries Biomarkers Blood flow Blood vessels Brain Flow velocity Hemodynamics Localization Microscopy Penetration depth Stiffening Ultrasonic imaging
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