Publication / RCMCI
Published Date: 2017/07/01
Published By: Dr Mohammad Reza Ay
Published At: Journal of Applied Clinical Medical Physics
Attachment Files: acm2.12094.pdf
Published URL:

Gerdekoohi, S.K., Vosoughi, N., Tanha, K., Assadi , M., Ghafarian, P.,Rahmim, A., Ay, M.R.

Purpose: Presence of photon attenuation severely challenges quantitative accuracy in single-photon emission computed tomography (SPECT) imaging. Subsequently, various attenuation correction methods have been developed to compensate for this degradation. The present study aims to implement an attenuation correction method and then to evaluate quantification accuracy of attenuation correction in small-animal SPECT imaging.

Methods: Images were reconstructed using an iterative reconstruction method based on the maximum-likelihood expectation maximization (MLEM) algorithm including resolution recovery. This was implemented in our designed dedicated small-animal SPECT (HiReSPECT) system. For accurate quantification, the voxel values were converted to activity concentration via a calculated calibration factor. An attenuation correction algorithm was developed based on the first-order Chang's method. Both phantom study and experimental measurements with four rats were used in order to validate the proposed method.