中国医疗设备
中國醫療設備
중국의료설비
China Medical Devices
2015年
11期
47-49
,共3页
王猛%周翠红%金超岭%颜珏
王猛%週翠紅%金超嶺%顏玨
왕맹%주취홍%금초령%안각
IQ·SPECT%LEHR·SPECT%心肌模型显像
IQ·SPECT%LEHR·SPECT%心肌模型顯像
IQ·SPECT%LEHR·SPECT%심기모형현상
IQ·single-photon emission computed tomography%LEHR·single-photon emission computed tomography%myocardial perfusion imaging
目的:比较IQ·SPECT和LEHR·SPECT两种技术在心肌模型显像中对重建图像质量的影响。方法采用IQ·SPECT和LEHR·SPECT两种技术进行心肌模型显像,研究不同采集时间下的重建图像质量,并对模型图像的噪声和各壁段的放射性计数百分比进行比较分析。结果:①随着每帧采集时间的延长,重建图像的噪声逐渐减少,“冷区”的放射性计数百分比逐渐减小;②当每帧采集时间相同时,IQ·SPECT所重建出的图像比LEHR·SPECT所重建出的图像噪声小,而且“冷区”的放射性计数百分比小。结论 IQ·SPECT技术比LEHR·SPECT技术采集效率高,图像质量明显提高。
目的:比較IQ·SPECT和LEHR·SPECT兩種技術在心肌模型顯像中對重建圖像質量的影響。方法採用IQ·SPECT和LEHR·SPECT兩種技術進行心肌模型顯像,研究不同採集時間下的重建圖像質量,併對模型圖像的譟聲和各壁段的放射性計數百分比進行比較分析。結果:①隨著每幀採集時間的延長,重建圖像的譟聲逐漸減少,“冷區”的放射性計數百分比逐漸減小;②噹每幀採集時間相同時,IQ·SPECT所重建齣的圖像比LEHR·SPECT所重建齣的圖像譟聲小,而且“冷區”的放射性計數百分比小。結論 IQ·SPECT技術比LEHR·SPECT技術採集效率高,圖像質量明顯提高。
목적:비교IQ·SPECT화LEHR·SPECT량충기술재심기모형현상중대중건도상질량적영향。방법채용IQ·SPECT화LEHR·SPECT량충기술진행심기모형현상,연구불동채집시간하적중건도상질량,병대모형도상적조성화각벽단적방사성계수백분비진행비교분석。결과:①수착매정채집시간적연장,중건도상적조성축점감소,“랭구”적방사성계수백분비축점감소;②당매정채집시간상동시,IQ·SPECT소중건출적도상비LEHR·SPECT소중건출적도상조성소,이차“랭구”적방사성계수백분비소。결론 IQ·SPECT기술비LEHR·SPECT기술채집효솔고,도상질량명현제고。
Objective To investigate the inlfuence of application of IQ·SPECT (Single-Photon Emission Computed Tomography) and LEHR·SPECT on myocardial perfusion imaging.Methods The phantom of myocardial was used for comparison between IQ·SPECT and LEHR·SPECT after routine acquisition and image reconstruction. Then, the influence of application of different acquisition time on the quality of images was analyzed.Results With the extension of the acquisition time for each frame, the noise of the reconstructed image was reduced gradually, and the percentage of the radioactivity in the cooling zone was also decreased gradually. For the phantom image with same acquisition time, IQ·SPECT demonstrated superiority over LEHR·SPECT in its smaller image noise and percentage of the radioactivity in the cooling zone.Conclusion For myocardial perfusion imaging, application of IQ·SPECT could obtain higher-quality images with high-efifciency acquisition.