Clinical Impact of Combination of Scatter, Attenuation Correction, and Depth-Dependent Resolution Recovery for 201Tl Studies

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Clinical Investigations

Clinical Impact of Combination of Scatter, Attenuation Correction, and Depth-Dependent Resolution Recovery for ²⁰¹Tl Studies

François Harel, Rémi Génin, Doumit Daou, Rachida Lebtahi, Nicolas Delahaye, Badia O. Helal, Dominique Le Guludec and Marc Faraggi

Department of Nuclear Medicine, Bichat Hospital, Assistance Publique Hôpitaux de Paris, Paris; and Department of Nuclear Medicine, Antoine Béclère Hospital, Assistance Publique Hôpitaux de Paris, Clamart, France

A lack of specificity for myocardial perfusion imaging has beenwidely reported, mostly related to false-positive defects onthe inferior wall. The application of depth-dependent resolutionrecovery (RR), attenuation correction (AC) using external sourcedevices, and scatter correction has been proposed to resolvethis pitfall. Methods: We studied the clinical benefit of depth-dependentRR, nonuniform AC using a scanning line source, and scattercorrection (photon energy recovery [PER]) compared with filteredbackprojection alone. Eighty-two patients were included: 40healthy volunteers with a low likelihood of coronary arterydisease (control group) and 42 patients with proven right orcircumflex coronary artery disease but without involvement ofthe left anterior descending artery. Among these 82 patients,the images of 33 were also processed with PER. Results: RR didnot alter the performance of filtered backprojection alone.AC + RR greatly improved specificity and the rate of normal²⁰¹Tl SPECT findings in the control population (from 56% to95% and from 53% to 100%, respectively) but significantly decreasedsensitivity (from 92% to 54%). AC + RR generated a false anteroapicaldefect in 21% of patients and reverse redistribution of theapex in 23%. AC + RR significantly decreased the extent of thestress defect (from 4.09 to 3.21 segments, P < 0.003) andincreased the perfusion score of the stress defect (from 0.78± 0.72 to 1.47 ± 1.11, P < 0.00061). Moreover,AC + RR generated overcorrection on the inferior wall, leadingto false estimation of viability for 11 of 15 patients withan old inferior myocardial scar without evidence of residualviability. PER decreased overcorrection on the inferior wall,but without improving sensitivity. PER did not significantlyreduce the number of anteroapical false-positives or the numberof apical reverse distribution cases. Conclusion: AC + RR improvedthe specificity and normalcy rate of ²⁰¹Tl SPECT myocardialperfusion imaging but generated overcorrection on the inferiorwall, leading to low sensitivity and to false evaluation ofmyocardial viability in 73% of the patients with inferior infarction.AC + RR also generated anteroapical artifacts. The additionof scatter correction did not significantly reduce these drawbacks.

Key Words: attenuation correction • scatter correction • myocardial perfusion

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