[HTML][HTML] χ-separation: Magnetic susceptibility source separation toward iron and myelin mapping in the brain

HG Shin, J Lee, YH Yun, SH Yoo, J Jang, SH Oh… - Neuroimage, 2021 - Elsevier
Obtaining a histological fingerprint from the in-vivo brain has been a long-standing target of
magnetic resonance imaging (MRI). In particular, non-invasive imaging of iron and myelin …

Quantitative susceptibility mapping with source separation in normal brain development of newborns

MJ Jang, AV Dimov, K Kapse, J Murnick… - American Journal of …, 2024 - ajnr.org
ABSTRACT BACKGROUND AND PURPOSE: Quantitative susceptibility mapping is an
emerging method for characterizing tissue composition and studying myelination and iron …

An improved asymmetric susceptibility tensor imaging model with frequency offset correction

R Feng, S Cao, J Zhuang, J Zhao… - Magnetic …, 2023 - Wiley Online Library
Purpose To improve susceptibility tensor imaging (STI) reconstruction using the asymmetric
STI model with the correction of non‐bulk‐magnetic‐susceptibility (NBMS) effects. Method A …

In-vivo histology of iron and myelin in the brain using magnetic susceptibility source separation in MRI

HG Shin, J Lee, YH Yun, SH Yoo, J Jang, SH Oh… - bioRxiv, 2020 - biorxiv.org
Obtaining a histological fingerprint from the in-vivo brain has been a long-standing target of
magnetic resonance imaging (MRI). In particular, non-invasive imaging of iron and myelin …

ChEST: a novel model measuring both chemical exchange and susceptibility tensor from resonance frequency shift

H Jeong, HG Shin, X Li, S Ji, J Lee - Proceedings of the 29th …, 2021 - archive.ismrm.org
We introduce ChEST, a novel model that can estimate both chemical exchange and
magnetic susceptibility tensor effects from resonance frequency shift. For reconstruction, an …