Acceleration of High-Resolution 3D MR Fingerprinting Via a Graph Convolutional Network

Overview

Journal Med Image Comput Comput Assist Interv

Publisher Springer

Date 2024 Mar 20

PMID 38504822

Authors

Feng Cheng

Yong Chen

Xiaopeng Zong

Weili Lin

Dinggang Shen

Pew-Thian Yap

Affiliations

Soon will be listed here.

Abstract

Magnetic resonance fingerprinting (MRF) is a novel imaging framework for fast and simultaneous quantification of multiple tissue properties. Recently, 3D MRF methods have been developed, but the acquisition speed needs to be improved before they can be adopted for clinical use. The purpose of this study is to develop a novel deep learning approach to accelerate 3D MRF acquisition along the slice-encoding direction in k-space. We introduce a graph-based convolutional neural network that caters to non-Cartesian spiral trajectories commonly used for MRF acquisition. We improve tissue quantification accuracy compared with the state of the art. Our method enables fast 3D MRF with high spatial resolution, allowing whole-brain coverage within 5min, making MRF more feasible in clinical settings.

Citing Articles

High-Resolution 3D Magnetic Resonance Fingerprinting With a Graph Convolutional Network.

Cheng F, Liu Y, Chen Y, Yap P IEEE Trans Med Imaging. 2022; 42(3):674-683.

PMID: 36269931 PMC: 10081960. DOI: 10.1109/TMI.2022.3216527.

Graph-Based Deep Learning for Medical Diagnosis and Analysis: Past, Present and Future.

Ahmedt-Aristizabal D, Armin M, Denman S, Fookes C, Petersson L Sensors (Basel). 2021; 21(14).

PMID: 34300498 PMC: 8309939. DOI: 10.3390/s21144758.

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