Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm

V. Bettinardi; E. Pagani; S. Alenius; M. Teras; M. C. Gilardi; C. Labbe; M. Jacobson; K. Thielemans; M. Sadki; C. Morel; R. Levkovitz; A. Ben-Tal; T. Spinks; G. Mitra; F. Fazio

Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm

V. Bettinardi, E. Pagani, S. Alenius, M. Teras, M. C. Gilardi, C. Labbe, M. Jacobson, K. Thielemans, M. Sadki, C. Morel, R. Levkovitz, A. Ben-Tal, T. Spinks, G. Mitra, F. Fazio

Research output: Contribution to conference › Paper › peer-review

Abstract

A 3D OSEM and Median Root Prior (3D OSEM-MRP) algorithm has been evaluated for the reconstruction of 3D PET studies. The algorithm was implemented using the software package developed during the EU project PARAPET. Evaluation was performed using experimental phantom data simulating in terms of shape and size PET brain studies. For each phantom, high (∼200Mcounts) and low (<50Mcounts) count statistics 3D PET data were acquired. The performances of the algorithm were evaluated by calculating simple figures of merit (e.g. contrast, coefficient of variation, activity ratio between two regions) based on the use of regions of interest. The performances of the 3D OSEM-MRP were compared with those of a "pure" 3D OSEM and of the PROMIS algorithm, using different reconstruction filters. In all the considered experimental situations, 3D OSEM-MRP shows: 1) to converge to a stable solution, 2) to be quantitatively accurate, 3) to be very effective in noise reduction, particularly for low statistics data, 4) to maintain "good" spatial resolution. Compared with the 3D OSEM and PROMIS algorithms, 3D OSEM-MRP provides better or comparable results depending on the configuration parameters used for the reconstruction of the images.

Original language	English (US)
Pages	15/203-15/206
State	Published - 2000
Externally published	Yes
Event	2000 IEEE Nuclear Science Symposium Conference Record - Lyon, France Duration: Oct 15 2000 → Oct 20 2000

Other

Other	2000 IEEE Nuclear Science Symposium Conference Record
Country/Territory	France
City	Lyon
Period	10/15/00 → 10/20/00

ASJC Scopus subject areas

Radiation
Nuclear and High Energy Physics
Radiology Nuclear Medicine and imaging

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Bettinardi, V., Pagani, E., Alenius, S., Teras, M., Gilardi, M. C., Labbe, C., Jacobson, M., Thielemans, K., Sadki, M., Morel, C., Levkovitz, R., Ben-Tal, A., Spinks, T., Mitra, G., & Fazio, F. (2000). Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm. 15/203-15/206. Paper presented at 2000 IEEE Nuclear Science Symposium Conference Record, Lyon, France.

Bettinardi, V, Pagani, E, Alenius, S, Teras, M, Gilardi, MC, Labbe, C, Jacobson, M, Thielemans, K, Sadki, M, Morel, C, Levkovitz, R, Ben-Tal, A, Spinks, T, Mitra, G & Fazio, F 2000, 'Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm', Paper presented at 2000 IEEE Nuclear Science Symposium Conference Record, Lyon, France, 10/15/00 - 10/20/00 pp. 15/203-15/206.

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title = "Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm",

abstract = "A 3D OSEM and Median Root Prior (3D OSEM-MRP) algorithm has been evaluated for the reconstruction of 3D PET studies. The algorithm was implemented using the software package developed during the EU project PARAPET. Evaluation was performed using experimental phantom data simulating in terms of shape and size PET brain studies. For each phantom, high (∼200Mcounts) and low (<50Mcounts) count statistics 3D PET data were acquired. The performances of the algorithm were evaluated by calculating simple figures of merit (e.g. contrast, coefficient of variation, activity ratio between two regions) based on the use of regions of interest. The performances of the 3D OSEM-MRP were compared with those of a {"}pure{"} 3D OSEM and of the PROMIS algorithm, using different reconstruction filters. In all the considered experimental situations, 3D OSEM-MRP shows: 1) to converge to a stable solution, 2) to be quantitatively accurate, 3) to be very effective in noise reduction, particularly for low statistics data, 4) to maintain {"}good{"} spatial resolution. Compared with the 3D OSEM and PROMIS algorithms, 3D OSEM-MRP provides better or comparable results depending on the configuration parameters used for the reconstruction of the images.",

author = "V. Bettinardi and E. Pagani and S. Alenius and M. Teras and Gilardi, {M. C.} and C. Labbe and M. Jacobson and K. Thielemans and M. Sadki and C. Morel and R. Levkovitz and A. Ben-Tal and T. Spinks and G. Mitra and F. Fazio",

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note = "2000 IEEE Nuclear Science Symposium Conference Record ; Conference date: 15-10-2000 Through 20-10-2000",

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T1 - Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm

AU - Bettinardi, V.

AU - Pagani, E.

AU - Alenius, S.

AU - Teras, M.

AU - Gilardi, M. C.

AU - Labbe, C.

AU - Jacobson, M.

AU - Thielemans, K.

AU - Sadki, M.

AU - Morel, C.

AU - Levkovitz, R.

AU - Ben-Tal, A.

AU - Spinks, T.

AU - Mitra, G.

AU - Fazio, F.

PY - 2000

Y1 - 2000

N2 - A 3D OSEM and Median Root Prior (3D OSEM-MRP) algorithm has been evaluated for the reconstruction of 3D PET studies. The algorithm was implemented using the software package developed during the EU project PARAPET. Evaluation was performed using experimental phantom data simulating in terms of shape and size PET brain studies. For each phantom, high (∼200Mcounts) and low (<50Mcounts) count statistics 3D PET data were acquired. The performances of the algorithm were evaluated by calculating simple figures of merit (e.g. contrast, coefficient of variation, activity ratio between two regions) based on the use of regions of interest. The performances of the 3D OSEM-MRP were compared with those of a "pure" 3D OSEM and of the PROMIS algorithm, using different reconstruction filters. In all the considered experimental situations, 3D OSEM-MRP shows: 1) to converge to a stable solution, 2) to be quantitatively accurate, 3) to be very effective in noise reduction, particularly for low statistics data, 4) to maintain "good" spatial resolution. Compared with the 3D OSEM and PROMIS algorithms, 3D OSEM-MRP provides better or comparable results depending on the configuration parameters used for the reconstruction of the images.

AB - A 3D OSEM and Median Root Prior (3D OSEM-MRP) algorithm has been evaluated for the reconstruction of 3D PET studies. The algorithm was implemented using the software package developed during the EU project PARAPET. Evaluation was performed using experimental phantom data simulating in terms of shape and size PET brain studies. For each phantom, high (∼200Mcounts) and low (<50Mcounts) count statistics 3D PET data were acquired. The performances of the algorithm were evaluated by calculating simple figures of merit (e.g. contrast, coefficient of variation, activity ratio between two regions) based on the use of regions of interest. The performances of the 3D OSEM-MRP were compared with those of a "pure" 3D OSEM and of the PROMIS algorithm, using different reconstruction filters. In all the considered experimental situations, 3D OSEM-MRP shows: 1) to converge to a stable solution, 2) to be quantitatively accurate, 3) to be very effective in noise reduction, particularly for low statistics data, 4) to maintain "good" spatial resolution. Compared with the 3D OSEM and PROMIS algorithms, 3D OSEM-MRP provides better or comparable results depending on the configuration parameters used for the reconstruction of the images.

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T2 - 2000 IEEE Nuclear Science Symposium Conference Record

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ER -

Implementation and evaluation of a 3D OSEM and median root prior (3D OSEM-MRP) reconstruction algorithm

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