Myocardial perfusion SPECT reconstruction: Receiver operating characteristic comparison of CAD detection accuracy of filtered backprojection reconstruction with all of the clinical imaging information available to readers and solely stress slices iteratively reconstructed with combined compensation

Past receiver operating characteristic (ROC) studies have demonstrated that single photon emission computed tomography (SPECT) perfusion imaging by use of iterative reconstruction with combined compensation for attenuation, scatter, and detector response leads to higher area under the ROC curve (A z...

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Bibliographic Details
Published in:Journal of nuclear cardiology 2005-05, Vol.12 (3), p.284-293
Main Authors: Pretorius, P. Hendrik, King, Michael A., Gifford, Howard C., Dahlberg, Seth T., Spencer, Frederick, Simon, Ellen, Rashkin, Jason, Botkin, Naomi, Berndt, William, Narayanan, Manoj V., Leppo, Jeffrey A.
Format: Article
Language:English
Subjects:
Accuracy
attenuation compensation
Cardiac single photon emission computed tomography
Cardiology
Cardiovascular disease
Compensation
Coronary Artery Disease - diagnostic imaging
Exercise Test
Female
Humans
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
Imaging, Three-Dimensional - methods
Male
Medical imaging
Middle Aged
Observer Variation
ordered subset expectation maximization
Prognosis
Reproducibility of Results
resolution compensation
ROC Curve
scatter compensation
Tomography, Emission-Computed, Single-Photon - methods
transmission imaging
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Summary:Past receiver operating characteristic (ROC) studies have demonstrated that single photon emission computed tomography (SPECT) perfusion imaging by use of iterative reconstruction with combined compensation for attenuation, scatter, and detector response leads to higher area under the ROC curve (A z) values for detection of coronary artery disease (CAD) in comparison to the use of filtered backprojection (FBP) with no compensations. A new ROC study was conducted to investigate whether this improvement still holds for iterative reconstruction when observers have available all of the imaging information normally presented to clinical interpreters when reading FBP SPECT perfusion slices. A total of 87 patient studies including 50 patients referred for angiography and 37 patients with a lower than 5% likelihood for CAD were included in the ROC study. The images from the two methods were read by 4 cardiology fellows and 3 attending nuclear cardiologists. Presented for the FBP readings were the short-axis, horizontal long-axis, and vertical long-axis slices for both the stress and rest images; cine images of both the stress and rest projection data; cine images of selected cardiac-gated slices; the CEQUAL-generated stress and rest polar maps; and an indication of patient gender. This was compared with reading solely the iterative reconstructed stress slices with combined compensation for attenuation, scatter, and resolution. With A z as the criterion, a 2-way analysis of variance showed a significant improvement in detection accuracy for CAD for the 7 observers ( P = .018) for iterative reconstruction with combined compensation (A z of 0.895 ± 0.016) over FBP even with the additional imaging information provided to the observers when scoring the FBP slices (A z of 0.869 ± 0.030). When the groups of 3 attending physicians or 4 cardiology fellows were compared separately, the iterative technique was not statistically significantly better; however, the A z for each of the 7 observers individually was larger for iterative reconstruction than for FBP. Compared with results from our previous studies, the additional imaging information did increase the diagnostic accuracy of FBP for CAD but not enough to undo the statistically significantly higher diagnostic accuracy of iterative reconstruction with combined compensation. We have determined through an ROC investigation that included two classes of observers (experienced attending physicians and cardiology fellows in tr
ISSN:1071-3581
1532-6551
DOI:10.1016/j.nuclcard.2005.01.012