Impact of attenuation and scatter correction in SPECT for quantification of cerebral blood flow using 99mTc-ethyl cysteinate dimer

Miho Shidahara, Hiroshi Watabe, Kyeong Min Kim, Takenori Hachiya, Ichiro Sayama, Hidehiro Iida

研究成果: Paper査読


The purpose of this study was to evaluate the effects of the attenuation correction and scatter correction methods, both validated previously, on the quantitative estimation of rCBF using 99mTc-ECD and SPECT. SPECT scans were performed on 7 subjects, and images were reconstructed by OSEM, in which uniform and segmented μ maps were used for attenuation correction, with and without scatter correction, which is based on the transmission-dependent convolution subtraction technique. Segmented and uniform μ maps were generated from MR images. We also produced uniform μ maps using ECD images obtained at various threshold levels. Scatter correction improved the image contrast dramatically. K, image with attenuation and scatter corrections assuming a homogeneous p. map was consistent as compared with those by segmented u map in most regions, except for in a deep structure (e.g. 7.3%). This small amount of error was also observed in a phantom study and Monte-Carlo simulation. Absolute Kj values in the reconstructed images were sensitive to the threshold level when edge of the brain was determined from the ECD images, and varied from 14.2 to 42.3%. corresponding to the threshold level from 10 to 20%, respectively. Using optimal threshold level, absolute Kl values varied by ±8.8%. This suggests the need for further development of appropriate edge detection technique. This study demonstrated the scatter correction is essential in quantitative SPECT studies with ECD in brain. It was also demonstrated that the use of uniform attenuation μ map could provide reasonable accuracy, despite a small but significant errors in a deep structure regions.

出版ステータスPublished - 2000
イベント2000 IEEE Nuclear Science Symposium Conference Record - Lyon, France
継続期間: 2000 10 152000 10 20


Other2000 IEEE Nuclear Science Symposium Conference Record

ASJC Scopus subject areas

  • 放射線
  • 核物理学および高エネルギー物理学
  • 放射線学、核医学およびイメージング


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