Systolic 3D first-pass myocardial perfusion MRI: Comparison with diastolic imaging in healthy subjects

Three‐dimensional (3D) first‐pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two‐dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid‐diastole is a typical choice...

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Published in	Magnetic resonance in medicine Vol. 63; no. 4; pp. 858 - 864
Main Authors	Shin, Taehoon, Pohost, Gerald M., Nayak, Krishna S.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.05.2010
Subjects	3D imaging Adult cardiac MRI Contrast Media - administration & dosage Coronary Circulation Diastole Feasibility Studies Female Gadolinium DTPA - administration & dosage Humans Image Interpretation, Computer-Assisted Imaging, Three-Dimensional Magnetic Resonance Imaging - methods Male Middle Aged myocardial perfusion Myocardial Perfusion Imaging - methods sensitivity encoding Systole systolic acquisition
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ISSN	0740-3194 1522-2594 1522-2594
DOI	10.1002/mrm.22315

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Abstract	Three‐dimensional (3D) first‐pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two‐dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid‐diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R‐R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R‐R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R‐R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end‐systole and mid‐diastole of every R‐R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001). Magn Reson Med 63:858–864, 2010. © 2010 Wiley‐Liss, Inc.
AbstractList	Three-dimensional (3D) first-pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two-dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid-diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R-R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R-R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R-R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end-systole and mid-diastole of every R-R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001).Three-dimensional (3D) first-pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two-dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid-diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R-R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R-R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R-R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end-systole and mid-diastole of every R-R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001). Three-dimensional (3D) first-pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two-dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid-diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R-R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R-R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R-R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end-systole and mid-diastole of every R-R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001). Magn Reson Med 63:858-864, 2010. [copy 2010 Wiley-Liss, Inc. Three‐dimensional (3D) first‐pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two‐dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid‐diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R‐R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R‐R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R‐R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end‐systole and mid‐diastole of every R‐R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001). Magn Reson Med 63:858–864, 2010. © 2010 Wiley‐Liss, Inc. Three-dimensional (3D) first-pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two-dimensional multislice MPI due to its contiguous spatial coverage that is beneficial for estimating the size of perfusion defects. Data acquisition at mid-diastole is a typical choice for 3D MPI yet is sensitive to arrhythmia and variations in R-R interval that are common in cardiac patients. End systole is the second longest quiescent cardiac phase and is known to be less sensitive to the R-R variability. Therefore, 3D MPI with systolic acquisition may be advantageous in patients with severe arrhythmia once it is proven to be comparable to diastolic MPI in subjects with negligible R-R variation. In this work, we demonstrate the feasibility of 3D MPI with systolic data acquisition in five healthy subjects. We performed 3D MPI experiments in which 3D perfusion data were acquired at both end-systole and mid-diastole of every R-R interval and analyzed the similarity between resulting time intensity curves (TIC) from the two data sets. The correlation between systolic and diastolic TICs was extremely high (mean = 0.9841; standard deviation = 0.0166), and there was a significant linear correlation between the two time intensity curve upslopes and peak enhancements (P < 0.001).
Author	Shin, Taehoon Nayak, Krishna S. Pohost, Gerald M.
Author_xml	– sequence: 1 givenname: Taehoon surname: Shin fullname: Shin, Taehoon email: shinage@gmail.com organization: Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, California, USA – sequence: 2 givenname: Gerald M. surname: Pohost fullname: Pohost, Gerald M. organization: Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, California, USA – sequence: 3 givenname: Krishna S. surname: Nayak fullname: Nayak, Krishna S. organization: Ming Hsieh Department of Electrical Engineering, University of Southern California, Los Angeles, California, USA
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Cites_doi	10.1186/1532-429X-10-57 10.1161/01.CIR.97.6.535 10.1002/jmri.21056 10.1186/1532-429X-10-17 10.1081/JCMR-120038086 10.1161/01.CIR.86.4.1125 10.1007/BF00253767 10.1148/radiol.2352040454 10.1002/mrm.20666 10.1002/mrm.1910290618 10.1056/NEJMoa012369 10.1002/mrm.21799 10.1002/jmri.1880030419 10.1007/BF02668182 10.1002/mrm.21236 10.1002/mrm.1113 10.1161/01.CIR.37.2.149 10.1148/radiol.2261011874 10.1016/0002-9149(94)90363-8 10.1016/S0735-1097(00)01191-8 10.1161/01.CIR.0000138106.84335.62 10.1016/S0735-1097(83)80100-4 10.1002/mrm.21765
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References_xml	– reference: Liu B, King K, Steckner M, Xie J, Sheng J, Ying L. Regularized sensitivity encoding (SENSE) reconstruction using Bregman iterations. Magn Reson Med 2009; 61: 145-152. – reference: Hachamovitch R, Berman DS, Shaw LJ, Kiat H, Cohen I, Cabico JA, Friedman J, Diamond GA. Incremental prognostic value of myocardial perfusion single photon emission computed tomography for the prediction of cardiac death. Circulation 1998; 97: 535-543. – reference: Jones RA, Haraldseth O, Muller TB, Rinck PA, Oksendal AN. k-Space substitution: a novel dynamic imaging technique. Magn Reson Med 1993; 29: 830-834. – reference: Di Bella EVR, Parker DL, Sinusas AJ. On the dark rim artifact in dynamic contrast-enhanced MRI myocardial perfusion studies. Magn Reson Med 2005; 54: 1295-1299. – reference: Brown KA, Boucher CA, Okada RD, Guiney TE, Newell JB, Strauss HW, Pohost GM. Prognostic value of exercise thallium-201 imaging in patients presenting for evaluation of chest pain. 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Snippet	Three‐dimensional (3D) first‐pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two‐dimensional multislice MPI due to its... Three-dimensional (3D) first-pass myocardial perfusion imaging (MPI) is a promising alternative to conventional two-dimensional multislice MPI due to its...
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SubjectTerms	3D imaging Adult cardiac MRI Contrast Media - administration & dosage Coronary Circulation Diastole Feasibility Studies Female Gadolinium DTPA - administration & dosage Humans Image Interpretation, Computer-Assisted Imaging, Three-Dimensional Magnetic Resonance Imaging - methods Male Middle Aged myocardial perfusion Myocardial Perfusion Imaging - methods sensitivity encoding Systole systolic acquisition
Title	Systolic 3D first-pass myocardial perfusion MRI: Comparison with diastolic imaging in healthy subjects
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