The impacts of severe perfusion defects, akinetic/dyskinetic segments, and viable myocardium on the accuracy of volumes and LVEF measured by gated 99mTc-MIBI SPECT and gated 18F-FDG PET in patients with left ventricular aneurysm: cardiac magnetic resonance imaging as the reference

To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residu...

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Published in	Journal of nuclear cardiology Vol. 21; no. 6; pp. 1230 - 1244
Main Authors	Wei, Hongxing, Tian, Congna, Schindler, Thomas H., Qiu, Mei, Lu, Minjie, Shen, Rui, Tian, Yueqin, Zhao, Shi-hua, Zhang, Xiaoli
Format	Journal Article
Language	English
Published	Boston Elsevier Inc 01.12.2014 Springer US
Subjects	Aneurysm Cardiac-Gated Single-Photon Emission Computer-Assisted Tomography - methods Cardiology cardiovascular MRI Coronary Artery Disease - complications Coronary Artery Disease - diagnostic imaging ejection fraction Female Fluorodeoxyglucose F18 gated 18F-FDG PET gated 99mTc-sestamibi SPECT Heart Aneurysm - diagnostic imaging Heart Aneurysm - etiology Humans Imaging Magnetic Resonance Imaging, Cine - methods Magnetic Resonance Imaging, Cine - standards Male Medicine Medicine & Public Health Middle Aged Nuclear Medicine Original Article Positron-Emission Tomography - methods Radiology Radiopharmaceuticals Reproducibility of Results Sensitivity and Specificity Stroke Volume Technetium Tc 99m Sestamibi Ventricular Dysfunction, Left - diagnostic imaging Ventricular Dysfunction, Left - etiology gated 99mTc-sestamibi SPECT cardiovascular MRI ejection fraction gated 18F-FDG PET Aneurysm gated F-FDG PET Tc-sestamibi SPECT
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Abstract	To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residual viable myocardium on the accuracy of LV functional parameters were investigated. Ninety-six consecutive patients with LV aneurysm and LV dysfunction (LVEF 32 ± 9%) diagnosed by CMR were studied with GSPECT and GPET. EDV, ESV, and LVEF were calculated using QGS software. Correlations of volumes were excellent (r 0.81-0.86) and correlation of LVEF was moderate (r 0.65-0.76) between GSPECT vs CMR and between GPET vs CMR. Compared with CMR, ESV was overestimated by GSPECT (P < .01) and underestimated by GPET (P < .0001); EDV was underestimated by GPET (P < .001); LVEF was underestimated by GSPECT but overestimated by GPET (both P < .001). Multivariate regression analysis revealed that the number of segments with severe perfusion defects (P < .001) was the only independent factor which was correlated to the EDV difference between GSPECT and CMR, the number of akinetic/dyskinetic segments with absent wall thickening (WT) was the only independent factor which was significantly correlated to the differences of ESV and LVEF measurements between GSPECT vs CMR and between GPET vs CMR (P < .0001), respectively. Neither the mismatch score nor the segments with viable myocardium were correlated to the differences of LV volumes and LVEF measurements between different imaging modalities. In LV aneurysm patients, LV volumes and LVEF measured by both GSPECT and GPET imaging correlated well with those determined by CMR, but should not be interchangeable in individual patients. The accuracy of LVEF measured by GSPECT and GPET was affected by the akinetic/dyskinetic segments with absent WT.
AbstractList	Background To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residual viable myocardium on the accuracy of LV functional parameters were investigated. Methods Ninety-six consecutive patients with LV aneurysm and LV dysfunction (LVEF 32 ± 9%) diagnosed by CMR were studied with GSPECT and GPET. EDV, ESV, and LVEF were calculated using QGS software. Results Correlations of volumes were excellent ( r 0.81-0.86) and correlation of LVEF was moderate ( r 0.65-0.76) between GSPECT vs CMR and between GPET vs CMR. Compared with CMR, ESV was overestimated by GSPECT ( P < .01) and underestimated by GPET ( P < .0001); EDV was underestimated by GPET ( P < .001); LVEF was underestimated by GSPECT but overestimated by GPET (both P < .001). Multivariate regression analysis revealed that the number of segments with severe perfusion defects ( P < .001) was the only independent factor which was correlated to the EDV difference between GSPECT and CMR, the number of akinetic/dyskinetic segments with absent wall thickening (WT) was the only independent factor which was significantly correlated to the differences of ESV and LVEF measurements between GSPECT vs CMR and between GPET vs CMR ( P < .0001), respectively. Neither the mismatch score nor the segments with viable myocardium were correlated to the differences of LV volumes and LVEF measurements between different imaging modalities. Conclusions In LV aneurysm patients, LV volumes and LVEF measured by both GSPECT and GPET imaging correlated well with those determined by CMR, but should not be interchangeable in individual patients. The accuracy of LVEF measured by GSPECT and GPET was affected by the akinetic/dyskinetic segments with absent WT. To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residual viable myocardium on the accuracy of LV functional parameters were investigated.BACKGROUNDTo compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residual viable myocardium on the accuracy of LV functional parameters were investigated.Ninety-six consecutive patients with LV aneurysm and LV dysfunction (LVEF 32 ± 9%) diagnosed by CMR were studied with GSPECT and GPET. EDV, ESV, and LVEF were calculated using QGS software.METHODSNinety-six consecutive patients with LV aneurysm and LV dysfunction (LVEF 32 ± 9%) diagnosed by CMR were studied with GSPECT and GPET. EDV, ESV, and LVEF were calculated using QGS software.Correlations of volumes were excellent (r 0.81-0.86) and correlation of LVEF was moderate (r 0.65-0.76) between GSPECT vs CMR and between GPET vs CMR. Compared with CMR, ESV was overestimated by GSPECT (P < .01) and underestimated by GPET (P < .0001); EDV was underestimated by GPET (P < .001); LVEF was underestimated by GSPECT but overestimated by GPET (both P < .001). Multivariate regression analysis revealed that the number of segments with severe perfusion defects (P < .001) was the only independent factor which was correlated to the EDV difference between GSPECT and CMR, the number of akinetic/dyskinetic segments with absent wall thickening (WT) was the only independent factor which was significantly correlated to the differences of ESV and LVEF measurements between GSPECT vs CMR and between GPET vs CMR (P < .0001), respectively. Neither the mismatch score nor the segments with viable myocardium were correlated to the differences of LV volumes and LVEF measurements between different imaging modalities.RESULTSCorrelations of volumes were excellent (r 0.81-0.86) and correlation of LVEF was moderate (r 0.65-0.76) between GSPECT vs CMR and between GPET vs CMR. Compared with CMR, ESV was overestimated by GSPECT (P < .01) and underestimated by GPET (P < .0001); EDV was underestimated by GPET (P < .001); LVEF was underestimated by GSPECT but overestimated by GPET (both P < .001). Multivariate regression analysis revealed that the number of segments with severe perfusion defects (P < .001) was the only independent factor which was correlated to the EDV difference between GSPECT and CMR, the number of akinetic/dyskinetic segments with absent wall thickening (WT) was the only independent factor which was significantly correlated to the differences of ESV and LVEF measurements between GSPECT vs CMR and between GPET vs CMR (P < .0001), respectively. Neither the mismatch score nor the segments with viable myocardium were correlated to the differences of LV volumes and LVEF measurements between different imaging modalities.In LV aneurysm patients, LV volumes and LVEF measured by both GSPECT and GPET imaging correlated well with those determined by CMR, but should not be interchangeable in individual patients. The accuracy of LVEF measured by GSPECT and GPET was affected by the akinetic/dyskinetic segments with absent WT.CONCLUSIONSIn LV aneurysm patients, LV volumes and LVEF measured by both GSPECT and GPET imaging correlated well with those determined by CMR, but should not be interchangeable in individual patients. The accuracy of LVEF measured by GSPECT and GPET was affected by the akinetic/dyskinetic segments with absent WT. To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac magnetic resonance imaging (CMR) as a reference. Furthermore, the impacts of severe perfusion defects, akinetic/dyskinetic segments, and residual viable myocardium on the accuracy of LV functional parameters were investigated. Ninety-six consecutive patients with LV aneurysm and LV dysfunction (LVEF 32 ± 9%) diagnosed by CMR were studied with GSPECT and GPET. EDV, ESV, and LVEF were calculated using QGS software. Correlations of volumes were excellent (r 0.81-0.86) and correlation of LVEF was moderate (r 0.65-0.76) between GSPECT vs CMR and between GPET vs CMR. Compared with CMR, ESV was overestimated by GSPECT (P < .01) and underestimated by GPET (P < .0001); EDV was underestimated by GPET (P < .001); LVEF was underestimated by GSPECT but overestimated by GPET (both P < .001). Multivariate regression analysis revealed that the number of segments with severe perfusion defects (P < .001) was the only independent factor which was correlated to the EDV difference between GSPECT and CMR, the number of akinetic/dyskinetic segments with absent wall thickening (WT) was the only independent factor which was significantly correlated to the differences of ESV and LVEF measurements between GSPECT vs CMR and between GPET vs CMR (P < .0001), respectively. Neither the mismatch score nor the segments with viable myocardium were correlated to the differences of LV volumes and LVEF measurements between different imaging modalities. In LV aneurysm patients, LV volumes and LVEF measured by both GSPECT and GPET imaging correlated well with those determined by CMR, but should not be interchangeable in individual patients. The accuracy of LVEF measured by GSPECT and GPET was affected by the akinetic/dyskinetic segments with absent WT.
Author	Wei, Hongxing Qiu, Mei Schindler, Thomas H. Shen, Rui Zhao, Shi-hua Zhang, Xiaoli Tian, Congna Lu, Minjie Tian, Yueqin
Author_xml	– sequence: 1 givenname: Hongxing surname: Wei fullname: Wei, Hongxing organization: Department of Nuclear Medicine, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 2 givenname: Congna surname: Tian fullname: Tian, Congna organization: Department of Nuclear Medicine, Hebei General Hospital, 050051, Shijiazhuang, People’s Republic of China – sequence: 3 givenname: Thomas H. surname: Schindler fullname: Schindler, Thomas H. organization: Division of Cardiovascular Nuclear Medicine at Johns Hopkins University, Department of Radiology and Radiological Science SOM, JHOC 3225, 601 N. Caroline Street, 21287, Baltimore, MD, USA – sequence: 4 givenname: Mei surname: Qiu fullname: Qiu, Mei organization: Department of Nuclear Medicine, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 5 givenname: Minjie surname: Lu fullname: Lu, Minjie email: lumjcn@hotmail.com organization: Department of Magnetic Resonance Imaging, Cardiovascular Imaging and Intervention Center, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 6 givenname: Rui surname: Shen fullname: Shen, Rui organization: Department of Nuclear Medicine, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 7 givenname: Yueqin surname: Tian fullname: Tian, Yueqin organization: Department of Nuclear Medicine, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 8 givenname: Shi-hua surname: Zhao fullname: Zhao, Shi-hua organization: Department of Magnetic Resonance Imaging, Cardiovascular Imaging and Intervention Center, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China – sequence: 9 givenname: Xiaoli surname: Zhang fullname: Zhang, Xiaoli email: xlzhang68@yahoo.com organization: Department of Nuclear Medicine, State Key Laboratory of Cardiovascular Disease, Fuwai Hospital, National Center for Cardiovascular Diseases, Chinese Academy of Medical Sciences and Peking Union Medical College, 10037, Beijing, People’s Republic of China
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Copyright	2014 American Society of Nuclear Cardiology. Published by ELSEVIER INC. All rights reserved. American Society of Nuclear Cardiology 2014
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Keywords	gated 99mTc-sestamibi SPECT cardiovascular MRI ejection fraction gated 18F-FDG PET Aneurysm gated F-FDG PET Tc-sestamibi SPECT
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comparative study of medical and surgical treatment publication-title: J Nucl Med doi: 10.2967/jnumed.107.046730 – volume: 32 start-page: 503 year: 2011 ident: 10.1007/s12350-014-9978-1_bib14 article-title: Reliability of left ventricular ejection fraction calculated with gated myocardial perfusion single photon emission computed tomography in patients with extensive perfusion defect publication-title: Nucl Med Commun doi: 10.1097/MNM.0b013e328342b97e – volume: 30 start-page: 851 year: 2003 ident: 10.1007/s12350-014-9978-1_bib28 article-title: Measurement of left ventricular volumes and ejection fraction by quantitative gated SPET, contrast ventriculography and magnetic resonance imaging: A meta-analysis publication-title: Eur J Nucl Med Mol Imaging doi: 10.1007/s00259-003-1146-9 – volume: 10 start-page: 297 year: 2003 ident: 10.1007/s12350-014-9978-1_bib18 article-title: Gated fluorine 18 fluorodeoxyglucose positron emission tomography: Determination of global and regional left ventricular function and myocardial tissue characterization publication-title: J Nucl Cardiol doi: 10.1016/S1071-3581(02)43240-0 – volume: 36 start-page: 2138 year: 1995 ident: 10.1007/s12350-014-9978-1_bib6 article-title: Automatic quantification of ejection fraction from gated myocardial perfusion SPECT publication-title: J Nucl Med – volume: 46 start-page: 1256 year: 2005 ident: 10.1007/s12350-014-9978-1_bib8 article-title: Quantification of left ventricular volumes and ejection fraction from gated 99mTc-MIBI SPECT: MRI validation and comparison of the Emory Cardiac Tool Box with QGS and 4D-MSPECT publication-title: J Nucl Med – volume: 86 start-page: 1299 year: 2000 ident: 10.1007/s12350-014-9978-1_bib11 article-title: Comparison of gated single-photon emission computed tomography with magnetic resonance imaging for evaluation of left ventricular function in ischemic cardiomyopathy publication-title: Am J Cardiol doi: 10.1016/S0002-9149(00)01231-5 – volume: 28 start-page: 221 year: 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Snippet	To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using cardiac... Background To compare the accuracy of end-diastolic and end-systolic volumes (EDV, ESV) and LV ejection fraction (LVEF) measured by both GSPECT and GPET, using...
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SubjectTerms	Aneurysm Cardiac-Gated Single-Photon Emission Computer-Assisted Tomography - methods Cardiology cardiovascular MRI Coronary Artery Disease - complications Coronary Artery Disease - diagnostic imaging ejection fraction Female Fluorodeoxyglucose F18 gated 18F-FDG PET gated 99mTc-sestamibi SPECT Heart Aneurysm - diagnostic imaging Heart Aneurysm - etiology Humans Imaging Magnetic Resonance Imaging, Cine - methods Magnetic Resonance Imaging, Cine - standards Male Medicine Medicine & Public Health Middle Aged Nuclear Medicine Original Article Positron-Emission Tomography - methods Radiology Radiopharmaceuticals Reproducibility of Results Sensitivity and Specificity Stroke Volume Technetium Tc 99m Sestamibi Ventricular Dysfunction, Left - diagnostic imaging Ventricular Dysfunction, Left - etiology
Title	The impacts of severe perfusion defects, akinetic/dyskinetic segments, and viable myocardium on the accuracy of volumes and LVEF measured by gated 99mTc-MIBI SPECT and gated 18F-FDG PET in patients with left ventricular aneurysm: cardiac magnetic resonance imaging as the reference
URI	https://dx.doi.org/10.1007/s12350-014-9978-1 https://link.springer.com/article/10.1007/s12350-014-9978-1 https://www.ncbi.nlm.nih.gov/pubmed/25189143 https://www.proquest.com/docview/1624934880
Volume	21
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