Accuracy, repeatability, and reproducibility of T 1 and T 2 relaxation times measurement by 3D magnetic resonance fingerprinting with different dictionary resolutions

To assess the accuracy, repeatability, and reproducibility of T and T relaxation time measurements by three-dimensional magnetic resonance fingerprinting (3D MRF) using various dictionary resolutions. The ISMRM/NIST phantom was scanned daily for 10 days in two 3 T MR scanners using a 3D MRF sequence...

Full description

Saved in:
Bibliographic Details
Published in:European radiology 2023-04, Vol.33 (4), p.2895
Main Authors: Wicaksono, Krishna Pandu, Fushimi, Yasutaka, Nakajima, Satoshi, Sakata, Akihiko, Okuchi, Sachi, Hinoda, Takuya, Oshima, Sonoko, Otani, Sayo, Tagawa, Hiroshi, Urushibata, Yuta, Nakamoto, Yuji
Format: Article
Language:English
Subjects:
Aged
Brain - diagnostic imaging
Humans
Image Processing, Computer-Assisted - methods
Magnetic Resonance Imaging - methods
Magnetic Resonance Spectroscopy
Phantoms, Imaging
Reproducibility of Results
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:To assess the accuracy, repeatability, and reproducibility of T and T relaxation time measurements by three-dimensional magnetic resonance fingerprinting (3D MRF) using various dictionary resolutions. The ISMRM/NIST phantom was scanned daily for 10 days in two 3 T MR scanners using a 3D MRF sequence reconstructed using four dictionaries with varying step sizes and one dictionary with wider ranges. Thirty-nine healthy volunteers were enrolled: 20 subjects underwent whole-brain MRF scans in both scanners and the rest in one scanner. ROI/VOI analyses were performed on phantom and brain MRF maps. Accuracy, repeatability, and reproducibility metrics were calculated. In the phantom study, all dictionaries showed high T linearity to the reference values (R > 0.99), repeatability (CV < 3%), and reproducibility (CV < 3%) with lower linearity (R > 0.98), repeatability (CV < 6%), and reproducibility (CV ≤ 4%) for T measurement. The volunteer study demonstrated high T reproducibility of within-subject CV (wCV) < 4% by all dictionaries with the same ranges, both in the brain parenchyma and CSF. Yet, reproducibility was moderate for T measurement (wCV < 8%). In CSF measurement, dictionaries with a smaller range showed a seemingly better reproducibility (T , wCV 3%; T , wCV 8%) than the much wider range dictionary (T , wCV 5%; T , wCV 13%). Truncated CSF relaxometry values were evident in smaller range dictionaries. The accuracy, repeatability, and reproducibility of 3D MRF across various dictionary resolutions were high for T and moderate for T measurements. A lower-resolution dictionary with a well-defined range may be adequate, thus significantly reducing the computational load. • A lower-resolution dictionary with a well-defined range may be sufficient for 3D MRF reconstruction. • CSF relaxation times might be underestimated due to truncation by the upper dictionary range. • Dictionary with a higher upper range might be advisable, especially for CSF evaluation and elderly subjects whose perivascular spaces are more prominent.
ISSN:1432-1084