Validation of a new t2∗ algorithm and its uncertainty value for cardiac and liver iron load determination from MRI magnitude images

BidhulT S., Xanthis C.G., LiljekvisT L.L., Greil G., Nagel E., Aletras A.H., Heiberg E., Hedström E.

dc.creator	BidhulT S., Xanthis C.G., LiljekvisT L.L., Greil G., Nagel E., Aletras A.H., Heiberg E., Hedström E.	en
dc.date.accessioned	2023-01-31T07:38:17Z
dc.date.available	2023-01-31T07:38:17Z
dc.date.issued	2016
dc.identifier	10.1002/mrm.25767
dc.identifier.issn	07403194
dc.identifier.uri	http://hdl.handle.net/11615/71649
dc.description.abstract	Purpose To validate an automatic algorithm for offline T2∗ measurements, providing robust, vendor-independent T2∗, and uncertainty estimates for iron load quantification in the heart and liver using clinically available imaging sequences. Methods A T2∗ region of interest (ROI)-based algorithm was developed for robustness in an offline setting. Phantom imaging was performed on a 1.5 Tesla system, with clinically available multiecho gradient-recalled-echo (GRE) sequences for cardiac and liver imaging. A T2∗ single-echo GRE sequence was used as reference. Simulations were performed to assess accuracy and precision from 2000 measurements. Inter- and intraobserver variability was obtained in a patient study (n = 23). Results Simulations: Accuracy, in terms of the mean differences between the proposed method and true T2∗ ranged from 0-0.73 ms. Precision, in terms of confidence intervals of repeated measurements, was 0.06-4.74 ms showing agreement between the proposed uncertainty estimate and simulations. Phantom study: Bias and variability were 0.26 ± 4.23 ms (cardiac sequence) and -0.23 ± 1.69 ms (liver sequence). Patient study: Intraobserver variability was similar for experienced and inexperienced observers (0.03 ± 1.44 ms versus 0.16 ± 2.33 ms). Interobserver variability was 1.0 ± 3.77 ms for the heart and -0.52 ± 2.75 ms for the liver. Conclusion The proposed algorithm was shown to provide robust T2∗ measurements and uncertainty estimates over the range of clinically relevant T2∗ values. © 2015 The Authors. Magnetic Resonance in Medicine published by Wiley Periodicals, Inc. on behalf of International Society for Magnetic Resonance in Medicine.	en
dc.language.iso	en	en
dc.source	Magnetic Resonance in Medicine	en
dc.source.uri	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84930029502&doi=10.1002%2fmrm.25767&partnerID=40&md5=b7d7336c4d6e48bda1620a4aa5ba7580
dc.subject	Heart	en
dc.subject	Image segmentation	en
dc.subject	Iron	en
dc.subject	Magnetic resonance imaging	en
dc.subject	Phantoms	en
dc.subject	Reactor cores	en
dc.subject	Accuracy and precision	en
dc.subject	Gradient recalled echos	en
dc.subject	Interobserver variability	en
dc.subject	Intra-observer variability	en
dc.subject	Offline	en
dc.subject	Relaxometry	en
dc.subject	Uncertainty estimation	en
dc.subject	validation	en
dc.subject	Uncertainty analysis	en
dc.subject	iron	en
dc.subject	iron	en
dc.subject	adolescent	en
dc.subject	adult	en
dc.subject	aged	en
dc.subject	Article	en
dc.subject	child	en
dc.subject	clinical article	en
dc.subject	controlled study	en
dc.subject	female	en
dc.subject	heart	en
dc.subject	human	en
dc.subject	imaging phantom	en
dc.subject	infant	en
dc.subject	interobserver variability	en
dc.subject	intraobserver variability	en
dc.subject	iron kinetics	en
dc.subject	iron load	en
dc.subject	limit of quantitation	en
dc.subject	liver	en
dc.subject	male	en
dc.subject	measurement accuracy	en
dc.subject	measurement precision	en
dc.subject	nuclear magnetic resonance imaging	en
dc.subject	observer variation	en
dc.subject	simulation	en
dc.subject	validation process	en
dc.subject	algorithm	en
dc.subject	cardiac muscle	en
dc.subject	chemistry	en
dc.subject	diagnostic imaging	en
dc.subject	heart	en
dc.subject	liver	en
dc.subject	middle aged	en
dc.subject	nuclear magnetic resonance imaging	en
dc.subject	preschool child	en
dc.subject	procedures	en
dc.subject	reproducibility	en
dc.subject	young adult	en
dc.subject	Adolescent	en
dc.subject	Adult	en
dc.subject	Aged	en
dc.subject	Algorithms	en
dc.subject	Child	en
dc.subject	Child, Preschool	en
dc.subject	Female	en
dc.subject	Heart	en
dc.subject	Humans	en
dc.subject	Infant	en
dc.subject	Iron	en
dc.subject	Liver	en
dc.subject	Magnetic Resonance Imaging	en
dc.subject	Male	en
dc.subject	Middle Aged	en
dc.subject	Myocardium	en
dc.subject	Phantoms, Imaging	en
dc.subject	Reproducibility of Results	en
dc.subject	Young Adult	en
dc.subject	John Wiley and Sons Inc	en
dc.title	Validation of a new t2∗ algorithm and its uncertainty value for cardiac and liver iron load determination from MRI magnitude images	en
dc.type	journalArticle	en

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