<sup>99m</sup>Tc-tetrofosmin 負荷心筋血流SPECT におけるCT 減弱補正のミスレジストレーションが心筋血流量に与える影響:17 セグメントpolar map を用いた評価

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  • Impact of Misregistration between the Myocardial Perfusion Images and CT Attenuation Correction Map on the %up Take with 17 Segments Polar Map
  • 臨床技術 [99m]Tc-tetrofosmin負荷心筋血流SPECTにおけるCT減弱補正のミスレジストレーションが心筋血流量に与える影響 : 17セグメントpolar mapを用いた評価
  • リンショウ ギジュツ [99m]Tc-tetrofosmin フカ シンキン ケツリュウ SPECT ニ オケル CT ゲンジャク ホセイ ノ ミスレジストレーション ガ シンキン ケツ リュウリョウ ニ アタエル エイキョウ : 17 セグメント polar map オ モチイタ ヒョウカ

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<p>Purpose: Computed tomography (CT) attenuation correction of myocardial perfusion in single-photon emission computed tomography (SPECT) /CT systems is possibility of misregistration between emission and transmission scans. This study aimed to evaluate the influence of misregistration using a polar map of 17 segments model. Methods: Using the fusion software, we assessed the magnitude and direction of misregistration in 200 consecutive myocardial perfusion SPECT images with 99mTechnetium (99mTc) tetrofosmin. After registration, CT data was shifted by ±1, ±2, and ±3 pixels along the cephalad/caudal, dorsal/ventral, and left/right axes, respectively. The registered image was compared with the shifted image. Results: Misregistration between the SPECT and CT images occurred by 1–2 pixels in 127 cases (63.5%) and by 2 or more pixels in four cases (2%); the maximum misregistration was 1.2±0.4 pixels on average. The polar map scoring was most significantly affected by 3 pixel ventral shift. A ventral shift of 1 pixel affected the scores for the anterolateral and inferolateral segments, whereas a caudal shift of 1 pixel affected the scores for the anterior segment. Conclusion: Since the 17 segments model can evaluate the position more precisely than the five segments model, it is possible to evaluate up to 1 pixel misregistration.</p>

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