A Method to Remove Artifacts in Attenuation-Corrected Myocardial Perfusion SPECT Introduced by Misalignment Between Emission Scan and CT-Derived Attenuation Maps

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Clinical Investigations

A Method to Remove Artifacts in Attenuation-Corrected Myocardial Perfusion SPECT Introduced by Misalignment Between Emission Scan and CT-Derived Attenuation Maps

Harald Fricke, Dr. rer. biol., Eva Fricke, MD, Reiner Weise, Dipl.-Ing., Annett Kammeier, MD, Oliver Lindner, MD and Wolfgang Burchert, MD

Institute of Molecular Biophysics, Radiopharmacy and Nuclear Medicine, Heart and Diabetes Center North Rhine-Westphalia, Bad Oeynhausen, Germany

Nonuniform soft-tissue attenuation affects the diagnostic accuracyof SPECT in myocardial perfusion imaging. The attenuation maprequired for attenuation correction can be acquired using x-raytomography (CT). Frequent findings in attenuation-correctedimages are defects in the apical and anterior myocardial wall.We assume that these are artifacts produced by misalignmentof SPECT images and the attenuation map. Methods: One hundredforty patients underwent myocardial perfusion imaging with ^99mTc-methoxyisobutylisonitrile.Twenty-seven of 140 showed pronounced defects in the apicalor anterior wall only after CT-based attenuation correction.SPECT and corresponding CT slices were examined for misalignmentin the ventrodorsal direction (y-direction) visually and bythreshold-based delineation of the body surface. Mismatchedstudies were realigned and image reconstruction and analysiswere redone. The effect of the correction was assessed visuallyand by semiquantitative analysis based on a 20-segment modelusing 4D-MSPECT. Results: In 15 of 27 patients, the improvedcoregistration led to smaller and less-pronounced defects inthe regions mentioned. In 6 of 27 patients, former defects werejudged as normal. No improvement was seen in only 4 patients.In these 4 subjects, the mismatch in the y-direction was <1pixel (7 mm), and visual inspection suggested a coincident mismatchin the craniocaudal direction. In 2 cases, coregistration wasnot possible because the body outline extended beyond the CTfield of view. Semiquantitative analysis revealed a significantincrease of the relative uptake in the apex; in the apical segmentsof the anterior, septal, and inferior wall; and in the mid-anteriorand mid-anteroseptal segment. Basal segments of the anterolateral,lateral, and inferolateral wall and the middle inferolateralsegment showed a significant decrease of relative uptake. Conclusion:Misalignment in the y-direction between SPECT and the attenuationmap can lead to artifacts in the apical, septal, and anteriorwall, which will appear as defects. It also can cause overcorrectionin the basal inferior and lateral segments. There is evidencethat mismatches along the other directions may have a similareffect. The coregistration of SPECT and the attenuation mapneeds to be verified for every patient, even when using integrateddual-modality imaging devices.

Key Words: SPECT • attenuation correction • myocardial perfusion imaging

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