Ultrasound Localization Microscopy and Super-Resolution: A State of the Art

Overview

Journal IEEE Trans Ultrason Ferroelectr Freq Control

Specialties Biomedical Engineering
Nuclear Medicine

Date 2018 Jul 12

PMID 29994673

Citations 66

Authors

Olivier Couture

Vincent Hingot

Baptiste Heiles

Pauline Muleki-Seya

Mickael Tanter

Affiliations

Soon will be listed here.

Abstract

Because it drives the compromise between resolution and penetration, the diffraction limit has long represented an unreachable summit to conquer in ultrasound imaging. Within a few years after the introduction of optical localization microscopy, we proposed its acoustic alter ego that exploits the micrometric localization of microbubble contrast agents to reconstruct the finest vessels in the body in-depth. Various groups now working on the subject are optimizing the localization precision, microbubble separation, acquisition time, tracking, and velocimetry to improve the capacity of ultrasound localization microscopy (ULM) to detect and distinguish vessels much smaller than the wavelength. It has since been used in vivo in the brain, the kidney, and tumors. In the clinic, ULM is bound to improve drastically our vision of the microvasculature, which could revolutionize the diagnosis of cancer, arteriosclerosis, stroke, and diabetes.

Citing Articles

Improved Microbubble Tracking for Super-Resolution Ultrasound Localization Microscopy using a Bi-Directional Long Short-term Memory Neural Network.

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Optimizing In Vivo Data Acquisition for Robust Clinical Microvascular Imaging Using Ultrasound Localization Microscopy.

Huang C, Lok U, Zhang J, Zhu X, Krier J, Stern A ArXiv. 2025; .

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Jones R, DeRuiter R, Lee H, Munot S, Belgharbi H, Santibanez F Sci Rep. 2025; 14(1):30240.

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