Ultrasound Localization Microscopy (ULM) relies on the injection of microbubbles (MBs) to obtain highly resolved density maps of blood circulation in vivo, with a resolution that can reach 10 {\mu}m ~ {\lambda}/10 in the rodent brain. Static mean velocity maps can be extracted but are intrinsically biased by potential significant changes in the number of MBs detected during the cardiac cycle. Dynamic ULM (DULM) is a technique developed for non-invasive pulsatility measurements in the brain of rodents, leading to temporally resolved velocity and density cine-loops. It was previously based on external triggers such as the electrocardiogram (ECG), limiting its use to datasets acquired specifically for DULM applications while also increasing the required acquisition time. This study presents a new motion matching method using tissue Doppler that eliminates the need for ECG-gating in DULM experiments. DULM can now be performed on any ULM datasets, recovering pertinent temporal information, and improving the robustness of the mean velocity estimates.
@article{arxiv.2311.00648,
title = {Dynamic Imaging using any Ultrasound Localization Microscopy Dataset},
author = {Nin Ghigo and Gerardo Ramos-Palacios and Chloé Bourquin and Paul Xing and Alice Wu and Nelson Cortés and Hugo Ladret and Lamyae Ikan and Christian Casanova and Jonathan Porée and Abbas Sadikot and Jean Provost},
journal= {arXiv preprint arXiv:2311.00648},
year = {2024}
}