Beyer Thomas, Rosenbaum Sandra, Veit Patrick, Stattaus Jörg, Müller Stefan P, Difilippo Frank P, Schöder Heiko, Mawlawi Osama, Roberts Fiona, Bockisch Andreas, Kühl Hilmar
Department of Nuclear Medicine, University Hospital Essen, Hufelandstrasse 55, 45122 Essen, Germany.
Eur J Nucl Med Mol Imaging. 2005 Dec;32(12):1429-39. doi: 10.1007/s00259-005-1879-8. Epub 2005 Aug 26.
Co-registration accuracy in combined whole-body (WB) PET/CT imaging is impaired by respiration-induced mismatches between the CT and the PET. Furthermore, PET/CT misregistration may bias the PET tracer distribution following CT-based attenuation correction (CT-AC). With the introduction of multi-row CT technology of up to 16 detector rows into PET/CT designs, we investigated the incidence of respiration artifacts in WB PET/CT examinations of patients who were unable to follow any breath-hold instructions.
A total of 80 WB studies from six international sites operating PET/CT tomographs with 1-, 2-, 4-, 6-, 8-, and 16-row spiral CT were included. PET/CT examinations were acquired with the patients breathing normally during both the CT and the PET scan, and CT-AC was performed routinely. All studies were anonymized and reviewed independently by three radiologists and three nuclear medicine specialists. We report the frequency and severity of artifacts on CT and PET for the thorax and the abdomen.
In WB PET/CT imaging of normally breathing patients, significant gains in diagnostic image quality can be expected from employing CT technology with six or more detector rows. In our study, fewer PET images appear distorted than corresponding CT images, which is due to the limited propagation of only mild CT image artifacts after the resampling of the CT-based attenuation map during CT-AC.
In whole-body PET/CT imaging of normally breathing patients, respiration-induced artifacts are reduced in both magnitude and prominence for PET/CT systems employing CT components of six or more detector rows.
在全身(WB)PET/CT联合成像中,CT与PET之间因呼吸导致的不匹配会损害配准精度。此外,PET/CT配准错误可能会使基于CT的衰减校正(CT-AC)后的PET示踪剂分布产生偏差。随着多达16排探测器行的多排CT技术引入PET/CT设计中,我们调查了无法遵循任何屏气指令的患者在WB PET/CT检查中呼吸伪影的发生率。
纳入了来自六个国际站点的80项WB研究,这些站点使用的PET/CT断层扫描仪配备有1排、2排、4排、6排、8排和16排螺旋CT。在CT和PET扫描期间,患者正常呼吸时进行PET/CT检查,并常规进行CT-AC。所有研究均匿名,由三名放射科医生和三名核医学专家独立审查。我们报告胸部和腹部CT及PET上伪影的频率和严重程度。
在正常呼吸患者的WB PET/CT成像中,采用六排或更多排探测器的CT技术有望显著提高诊断图像质量。在我们的研究中,PET图像出现扭曲的情况比相应的CT图像少,这是因为在CT-AC期间对基于CT的衰减图进行重采样后,只有轻度CT图像伪影的传播有限。
在正常呼吸患者的全身PET/CT成像中,对于采用六排或更多排探测器CT组件的PET/CT系统,呼吸引起的伪影在幅度和突出程度上都会降低。
