Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors

C. Avila; J. Lopez; J. C. Sanabria; G. Baldazzi; D. Bollini; M. Gombia; A. E. Cabal; C. Ceballos; A. Diaz Garcia; M. Gambaccini; A. Taibi; A. Sarnelli; A. Tuffanelli; P. Giubellino; A. Marzari-Chiesa; F. Prino; E. Tomassi; P. Grybos; M. Idzik; K. Swientek; P. Wiacek; L. M. Montaño; L. Ramello; M. Sitta

doi:10.1118/1.2126568

Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors

C. Avila
, J. Lopez
, J. C. Sanabria
, G. Baldazzi
, D. Bollini
, M. Gombia
, A. E. Cabal
, C. Ceballos
, A. Diaz Garcia
, M. Gambaccini
, A. Taibi
, A. Sarnelli
, A. Tuffanelli
, P. Giubellino
, A. Marzari-Chiesa
, F. Prino
, E. Tomassi
, P. Grybos
, M. Idzik
, K. Swientek

P. Wiacek, L. M. Montaño, L. Ramello, M. Sitta

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Dual-energy mammographic imaging experimental tests have been performed using a compact dichromatic imaging system based on a conventional x-ray tube, a mosaic crystal, and a 384-strip silicon detector equipped with full-custom electronics with single photon counting capability. For simulating mammal tissue, a three-component phantom, made of Plexiglass, polyethylene, and water, has been used. Images have been collected with three different pairs of x-ray energies: 16-32 keV, 18-36 keV, and 20-40 keV. A Monte Carlo simulation of the experiment has also been carried out using the MCNP-4C transport code. The Alvarez-Macovski algorithm has been applied both to experimental and simulated data to remove the contrast between two of the phantom materials so as to enhance the visibility of the third one.

Lingua originale	Inglese
pagine (da-a)	3755-3766
Numero di pagine	12
Rivista	Medical Physics
Volume	32
Numero di pubblicazione	12
DOI	https://doi.org/10.1118/1.2126568
Stato di pubblicazione	Pubblicato - 2005

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Avila, C., Lopez, J., Sanabria, J. C., Baldazzi, G., Bollini, D., Gombia, M., Cabal, A. E., Ceballos, C., Diaz Garcia, A., Gambaccini, M., Taibi, A., Sarnelli, A., Tuffanelli, A., Giubellino, P., Marzari-Chiesa, A., Prino, F., Tomassi, E., Grybos, P., Idzik, M., ... Sitta, M. (2005). Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors. Medical Physics, 32(12), 3755-3766. https://doi.org/10.1118/1.2126568

@article{3591c89c0edb4e8191972ebc902ad418,

title = "Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors",

abstract = "Dual-energy mammographic imaging experimental tests have been performed using a compact dichromatic imaging system based on a conventional x-ray tube, a mosaic crystal, and a 384-strip silicon detector equipped with full-custom electronics with single photon counting capability. For simulating mammal tissue, a three-component phantom, made of Plexiglass, polyethylene, and water, has been used. Images have been collected with three different pairs of x-ray energies: 16-32 keV, 18-36 keV, and 20-40 keV. A Monte Carlo simulation of the experiment has also been carried out using the MCNP-4C transport code. The Alvarez-Macovski algorithm has been applied both to experimental and simulated data to remove the contrast between two of the phantom materials so as to enhance the visibility of the third one.",

keywords = "Dual-energy x-ray imaging, MCNP simulations, Mammography, Silicon microstrip detectors",

author = "C. Avila and J. Lopez and Sanabria, \{J. C.\} and G. Baldazzi and D. Bollini and M. Gombia and Cabal, \{A. E.\} and C. Ceballos and \{Diaz Garcia\}, A. and M. Gambaccini and A. Taibi and A. Sarnelli and A. Tuffanelli and P. Giubellino and A. Marzari-Chiesa and F. Prino and E. Tomassi and P. Grybos and M. Idzik and K. Swientek and P. Wiacek and Monta{\~n}o, \{L. M.\} and L. Ramello and M. Sitta",

note = "Funding Information: This work was supported in part by the Polish State Committee for Scientific Research under Grant No. 3T11B01427, the TRIL programme from ICTP Trieste and the European Commission ALFA programme Contract No. AML/B7-311/97/0666/II-0042FA.",

year = "2005",

doi = "10.1118/1.2126568",

language = "English",

volume = "32",

pages = "3755--3766",

journal = "Medical Physics",

issn = "0094-2405",

publisher = "John Wiley and Sons Ltd",

number = "12",

}

Avila, C, Lopez, J, Sanabria, JC, Baldazzi, G, Bollini, D, Gombia, M, Cabal, AE, Ceballos, C, Diaz Garcia, A, Gambaccini, M, Taibi, A, Sarnelli, A, Tuffanelli, A, Giubellino, P, Marzari-Chiesa, A, Prino, F, Tomassi, E, Grybos, P, Idzik, M, Swientek, K, Wiacek, P, Montaño, LM, Ramello, L & Sitta, M 2005, 'Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors', Medical Physics, vol. 32, n. 12, pagg. 3755-3766. https://doi.org/10.1118/1.2126568

TY - JOUR

T1 - Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors

AU - Avila, C.

AU - Lopez, J.

AU - Sanabria, J. C.

AU - Baldazzi, G.

AU - Bollini, D.

AU - Gombia, M.

AU - Cabal, A. E.

AU - Ceballos, C.

AU - Diaz Garcia, A.

AU - Gambaccini, M.

AU - Taibi, A.

AU - Sarnelli, A.

AU - Tuffanelli, A.

AU - Giubellino, P.

AU - Marzari-Chiesa, A.

AU - Prino, F.

AU - Tomassi, E.

AU - Grybos, P.

AU - Idzik, M.

AU - Swientek, K.

AU - Wiacek, P.

AU - Montaño, L. M.

AU - Ramello, L.

AU - Sitta, M.

N1 - Funding Information: This work was supported in part by the Polish State Committee for Scientific Research under Grant No. 3T11B01427, the TRIL programme from ICTP Trieste and the European Commission ALFA programme Contract No. AML/B7-311/97/0666/II-0042FA.

PY - 2005

Y1 - 2005

N2 - Dual-energy mammographic imaging experimental tests have been performed using a compact dichromatic imaging system based on a conventional x-ray tube, a mosaic crystal, and a 384-strip silicon detector equipped with full-custom electronics with single photon counting capability. For simulating mammal tissue, a three-component phantom, made of Plexiglass, polyethylene, and water, has been used. Images have been collected with three different pairs of x-ray energies: 16-32 keV, 18-36 keV, and 20-40 keV. A Monte Carlo simulation of the experiment has also been carried out using the MCNP-4C transport code. The Alvarez-Macovski algorithm has been applied both to experimental and simulated data to remove the contrast between two of the phantom materials so as to enhance the visibility of the third one.

AB - Dual-energy mammographic imaging experimental tests have been performed using a compact dichromatic imaging system based on a conventional x-ray tube, a mosaic crystal, and a 384-strip silicon detector equipped with full-custom electronics with single photon counting capability. For simulating mammal tissue, a three-component phantom, made of Plexiglass, polyethylene, and water, has been used. Images have been collected with three different pairs of x-ray energies: 16-32 keV, 18-36 keV, and 20-40 keV. A Monte Carlo simulation of the experiment has also been carried out using the MCNP-4C transport code. The Alvarez-Macovski algorithm has been applied both to experimental and simulated data to remove the contrast between two of the phantom materials so as to enhance the visibility of the third one.

KW - Dual-energy x-ray imaging

KW - MCNP simulations

KW - Mammography

KW - Silicon microstrip detectors

UR - https://www.scopus.com/pages/publications/33645010091

U2 - 10.1118/1.2126568

DO - 10.1118/1.2126568

M3 - Article

SN - 0094-2405

VL - 32

SP - 3755

EP - 3766

JO - Medical Physics

JF - Medical Physics

IS - 12

ER -

Contrast cancellation technique applied to digital x-ray imaging using silicon strip detectors

Abstract

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