Monte Carlo-based down-scatter correction of SPECT attenuation maps (CROSBI ID 137263)
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Podaci o odgovornosti
Bokulić, Tomislav ; Vastenhouw, Brendan ; de Jong Hugo W. A. M. ; van Dongen, Alice J. ; van Rijk, Peter P. ; Beekman Freek, J.
engleski
Monte Carlo-based down-scatter correction of SPECT attenuation maps
Combined acquisition of transmission and emission data in single-photon emission computed tomography (SPECT) can be used for correction of non-uniform photon attenuation. However, down-scatter from a higher energy isotope (e.g. 99mTc) contaminates lower energy transmission data (e.g. 153Gd, 100 keV), resulting in underestimation of reconstructed attenuation coefficients. Window-based corrections are often not very accurate and increase noise in attenuation maps. We have developed a new correction scheme. It uses accurate scatter modelling to avoid noise amplification and does not require additional energy windows. The correction works as follows: Initially, an approximate attenuation map is reconstructed using down-scatter contaminated transmission data (step 1). An emission map is reconstructed based on the contaminated attenuation map (step 2). Based on this approximate 99mTc reconstruction and attenuation map, down-scatter in the 153Gd window is simulated using accelerated Monte Carlo simulation (step 3). This down-scatter estimate is used during reconstruction of a corrected attenuation map (step 4). Based on the corrected attenuation map, an improved 99mTc image is reconstructed (step 5). Steps 3– 5 are repeated to incrementally improve the down-scatter estimate. The Monte Carlo simulator provides accurate down-scatter estimation with significantly less noise than down-scatter estimates acquired in an additional window. Errors in the reconstructed attenuation coefficients are reduced from ca. 40% to less than 5%. Furthermore, artefacts in 99mTc emission reconstructions are almost completely removed. These results are better than for window-based correction, both in simulation experiments and in physical phantom experiments. Monte Carlo down-scatter simulation in concert with statistical reconstruction provides accurate down-scatter correction of attenuation maps.
quantitative SPECT; attenuation correction; Monte Carlo simulation; scatter correction; cardiac imaging
Bokulic T. Vastenhouw B. de Jong HWAM. van Dongen AJ. van Rijk PP. Beekman FJ. Monte Carlo-based down-scatter correction of SPECT attenuation maps (vol 31, pg 1173, 2004). [Correction, Addition] European Journal of Nuclear Medicine & Molecular Imaging. 31(10):1451, 2004 Oct.
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Podaci o izdanju
31 (8)
2004.
1173-1181-x
objavljeno
1619-7070
Povezanost rada
Fizika, Kliničke medicinske znanosti