Empirical model of human blood transverse relaxation at 3 T improves MRI T2 oximetry

Purpose We sought a human blood T2‐oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2 relaxation under spin tagging (TRUST). Methods Blood was drawn from five healthy control subjects. Ninety‐three in vitro blood transverse relaxation...

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Published in	Magnetic resonance in medicine Vol. 77; no. 6; pp. 2364 - 2371
Main Authors	Bush, Adam, Borzage, Matthew, Detterich, John, Kato, Roberta M., Meiselman, Herbert J., Coates, Thomas, Wood, John C.
Format	Journal Article
Language	English
Published	01.06.2017
Subjects	Blood Oxygenation Blood Relaxometry T2 Relaxation Under Spin Tagging Transverse Relaxation
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ISSN	0740-3194 1522-2594
DOI	10.1002/mrm.26311

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Abstract	Purpose We sought a human blood T2‐oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2 relaxation under spin tagging (TRUST). Methods Blood was drawn from five healthy control subjects. Ninety‐three in vitro blood transverse relaxation (T2b) measurements were performed at 37°C over a broad range of hematocrits (10–55%) and oxygen saturations (14–100%) at 3 Tesla (T). In vivo TRUST was performed on 35 healthy African American control subjects and 11 patients with chronic anemia syndromes. Results 1/T2 rose linearly with hematocrit (r2 = 0.96), for fully saturated blood. Upon desaturation, 1/T2 rose linearly with the square of the oxygen extraction, (1‐Y)2, and the slope was linearly proportional to hematocrit (r2 = 0.88). The resulting bilinear model between 1/T2, (1‐Y)2, and hematocrit had a combined r2 of 0.96 and a coefficient of variation of 6.1%. Using the in vivo data, the bilinear model had significantly lower bias and variability than existing calibrations, particularly for low hematocrits. In vivo Bland Altman analysis demonstrated clinically relevant bias that was −6% (absolute saturation) for hematocrits near 30% and rose to + 6% for hematocrits near 45%. Conclusion This work introduces a robust bilinear calibration model that should be used for MRI oximetry. Magn Reson Med 77:2364–2371, 2017. © 2016 International Society for Magnetic Resonance in Medicine
AbstractList	Purpose We sought a human blood T2‐oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2 relaxation under spin tagging (TRUST). Methods Blood was drawn from five healthy control subjects. Ninety‐three in vitro blood transverse relaxation (T2b) measurements were performed at 37°C over a broad range of hematocrits (10–55%) and oxygen saturations (14–100%) at 3 Tesla (T). In vivo TRUST was performed on 35 healthy African American control subjects and 11 patients with chronic anemia syndromes. Results 1/T2 rose linearly with hematocrit (r2 = 0.96), for fully saturated blood. Upon desaturation, 1/T2 rose linearly with the square of the oxygen extraction, (1‐Y)2, and the slope was linearly proportional to hematocrit (r2 = 0.88). The resulting bilinear model between 1/T2, (1‐Y)2, and hematocrit had a combined r2 of 0.96 and a coefficient of variation of 6.1%. Using the in vivo data, the bilinear model had significantly lower bias and variability than existing calibrations, particularly for low hematocrits. In vivo Bland Altman analysis demonstrated clinically relevant bias that was −6% (absolute saturation) for hematocrits near 30% and rose to + 6% for hematocrits near 45%. Conclusion This work introduces a robust bilinear calibration model that should be used for MRI oximetry. Magn Reson Med 77:2364–2371, 2017. © 2016 International Society for Magnetic Resonance in Medicine PURPOSEWe sought a human blood T2 -oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2 relaxation under spin tagging (TRUST).METHODSBlood was drawn from five healthy control subjects. Ninety-three in vitro blood transverse relaxation (T2b ) measurements were performed at 37°C over a broad range of hematocrits (10-55%) and oxygen saturations (14-100%) at 3 Tesla (T). In vivo TRUST was performed on 35 healthy African American control subjects and 11 patients with chronic anemia syndromes.RESULTS1/T2 rose linearly with hematocrit (r2 = 0.96), for fully saturated blood. Upon desaturation, 1/T2 rose linearly with the square of the oxygen extraction, (1-Y)2 , and the slope was linearly proportional to hematocrit (r2 = 0.88). The resulting bilinear model between 1/T2 , (1-Y)2 , and hematocrit had a combined r2 of 0.96 and a coefficient of variation of 6.1%. Using the in vivo data, the bilinear model had significantly lower bias and variability than existing calibrations, particularly for low hematocrits. In vivo Bland Altman analysis demonstrated clinically relevant bias that was -6% (absolute saturation) for hematocrits near 30% and rose to + 6% for hematocrits near 45%.CONCLUSIONThis work introduces a robust bilinear calibration model that should be used for MRI oximetry. Magn Reson Med 77:2364-2371, 2017. © 2016 International Society for Magnetic Resonance in Medicine.
Author	Detterich, John Meiselman, Herbert J. Coates, Thomas Bush, Adam Kato, Roberta M. Wood, John C. Borzage, Matthew
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Snippet	Purpose We sought a human blood T2‐oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2... PURPOSEWe sought a human blood T2 -oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T2...
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SubjectTerms	Blood Oxygenation Blood Relaxometry T2 Relaxation Under Spin Tagging Transverse Relaxation
Title	Empirical model of human blood transverse relaxation at 3 T improves MRI T2 oximetry
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