Technical Review of Magnetic Resonance Fingerprinting Applications in Cerebral Physiology
Chieh‐Te Lin, Hanzhang Lu, Audrey P. Fan

TL;DR
This paper reviews how magnetic resonance fingerprinting is used to study brain physiology, focusing on vascular imaging and computational methods.
Contribution
The paper provides a comprehensive technical review of MRF applications in cerebral physiology, emphasizing new imaging approaches and machine learning integration.
Findings
MRF techniques like MRF-ASL and MRvF are being adapted to quantify vascular and hemodynamic parameters in the brain.
Machine learning improves dictionary matching and reduces computational time for real-time parameter estimation in MRF.
Challenges like low signal-to-noise ratios are being addressed using tailored sequences and deep learning methods.
Abstract
Magnetic resonance fingerprinting (MRF) enables quantitative MRI by allowing the simultaneous mapping of multiple tissue properties through innovative acquisition and computational methods. This review focuses on the application of MRF techniques to cerebral physiology, emphasizing advancements in vascular imaging and the integration of biophysical modeling. We discuss the principles of MRF, its adaptation to quantify hemodynamic and vascular parameters, and its potential to overcome challenges in mapping vascular‐related parameters. The review categorizes MRF‐based imaging approaches, including MRF‐arterial spin labeling (MRF‐ASL), MR vascular fingerprinting (MRvF), and vascular fluid dynamics‐MRF (VFD‐MRF), highlighting their technical implementations, accuracy, and clinical applications in conditions such as stroke, brain tumors, and cerebrovascular diseases. We also explore the role…
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Taxonomy
TopicsAdvanced MRI Techniques and Applications · MRI in cancer diagnosis · Cerebrovascular and Carotid Artery Diseases
