Full breast digital mammography with an amorphous silicon-based flat panel detector: Physical characteristics of a clinical prototype

The physical characteristics of a clinical prototype amorphous silicon-based flat panel imager for full-breast digital mammography have been investigated. The imager employs a thin thallium doped CsI scintillator on an amorphous silicon matrix of detector elements with a pixel pitch of 100 μm. Objec...

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Veröffentlicht in:	Medical physics (Lancaster) 2000-03, Vol.27 (3), p.558-567
Hauptverfasser:	Vedantham, Srinivasan, Karellas, Andrew, Suryanarayanan, Sankararaman, Albagli, Douglas, Han, Sung, Tkaczyk, Eric J., Landberg, Cynthia E., Opsahl-Ong, Beale, Granfors, Paul R., Levis, Ilias, D’Orsi, Carl J., Hendrick, R. Edward
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Sprache:	eng
Schlagworte:	Algorithms Amorphous semiconductors Ancillary equipment breast imaging detective quantum efficiency (DQE) digital mammography Equipment Design image quality Image sensors Mammography Mammography - instrumentation Mammography - methods Medical imaging Modulation transfer functions physics Quantum noise Radiographic Image Enhancement - methods Scattering, Radiation Scintillation detectors Sensitivity and Specificity Silicon Silicon detectors Silicon doping silicon radiation detectors solid scintillation detectors Solid‐state detectors Thallium X-Rays
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container_title	Medical physics (Lancaster)
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creator	Vedantham, Srinivasan Karellas, Andrew Suryanarayanan, Sankararaman Albagli, Douglas Han, Sung Tkaczyk, Eric J. Landberg, Cynthia E. Opsahl-Ong, Beale Granfors, Paul R. Levis, Ilias D’Orsi, Carl J. Hendrick, R. Edward
description	The physical characteristics of a clinical prototype amorphous silicon-based flat panel imager for full-breast digital mammography have been investigated. The imager employs a thin thallium doped CsI scintillator on an amorphous silicon matrix of detector elements with a pixel pitch of 100 μm. Objective criteria such as modulation transfer function (MTF), noise power spectrum, detective quantum efficiency (DQE), and noise equivalent quanta were employed for this evaluation. The presampling MTF was found to be 0.73, 0.42, and 0.28 at 2, 4, and 5 cycles/mm, respectively. The measured DQE of the current prototype utilizing a 28 kVp, Mo–Mo spectrum beam hardened with 4.5 cm Lucite is ∼55% at close to zero spatial frequency at an exposure of 32.8 mR, and decreases to ∼40% at a low exposure of 1.3 mR. Detector element nonuniformity and electronic gain variations were not significant after appropriate calibration and software corrections. The response of the imager was linear and did not exhibit signal saturation under tested exposure conditions.
doi_str_mv	10.1118/1.598895
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Edward</creatorcontrib><title>Full breast digital mammography with an amorphous silicon-based flat panel detector: Physical characteristics of a clinical prototype</title><title>Medical physics (Lancaster)</title><addtitle>Med Phys</addtitle><description>The physical characteristics of a clinical prototype amorphous silicon-based flat panel imager for full-breast digital mammography have been investigated. The imager employs a thin thallium doped CsI scintillator on an amorphous silicon matrix of detector elements with a pixel pitch of 100 μm. Objective criteria such as modulation transfer function (MTF), noise power spectrum, detective quantum efficiency (DQE), and noise equivalent quanta were employed for this evaluation. The presampling MTF was found to be 0.73, 0.42, and 0.28 at 2, 4, and 5 cycles/mm, respectively. The measured DQE of the current prototype utilizing a 28 kVp, Mo–Mo spectrum beam hardened with 4.5 cm Lucite is ∼55% at close to zero spatial frequency at an exposure of 32.8 mR, and decreases to ∼40% at a low exposure of 1.3 mR. Detector element nonuniformity and electronic gain variations were not significant after appropriate calibration and software corrections. The response of the imager was linear and did not exhibit signal saturation under tested exposure conditions.</description><subject>Algorithms</subject><subject>Amorphous semiconductors</subject><subject>Ancillary equipment</subject><subject>breast imaging</subject><subject>detective quantum efficiency (DQE)</subject><subject>digital mammography</subject><subject>Equipment Design</subject><subject>image quality</subject><subject>Image sensors</subject><subject>Mammography</subject><subject>Mammography - instrumentation</subject><subject>Mammography - methods</subject><subject>Medical imaging</subject><subject>Modulation transfer functions</subject><subject>physics</subject><subject>Quantum noise</subject><subject>Radiographic Image Enhancement - methods</subject><subject>Scattering, Radiation</subject><subject>Scintillation detectors</subject><subject>Sensitivity and Specificity</subject><subject>Silicon</subject><subject>Silicon detectors</subject><subject>Silicon doping</subject><subject>silicon radiation detectors</subject><subject>solid scintillation detectors</subject><subject>Solid‐state detectors</subject><subject>Thallium</subject><subject>X-Rays</subject><issn>0094-2405</issn><issn>2473-4209</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kctu1DAUhi0EokNB4gmQVwgkUmyPncQskFDVAlIRXcDaOvFlYuTEwfa0ygPw3qTNCMqirM7ifPrO5UfoOSUnlNL2LT0Rsm2leIA2jDfbijMiH6INIZJXjBNxhJ7k_IMQUm8FeYyOKGlEU5Nmg36d70PAXbKQCzZ-5wsEPMAwxF2CqZ_xtS89hhHDENPUx33G2Qev41h1kK3BLkDBE4w2YGOL1SWmd_iyn7PXi0n3kEAXm3wuXmccHQasgx9vu1OKJZZ5sk_RIwch22eHeoy-n599O_1UXXz9-Pn0w0Wll6tExRyppWZcChCtNY3hjWOSgwAqrG5l07FtAw0HZsFp4LUl0mjQnSHOuLrdHqP3q3fad4M12o4lQVBT8gOkWUXw6t_O6Hu1i1eKs5bQVi6ClwdBij_3Nhc1-KxtCMsDlt-ohhJGeH0DvlpBnWLOybo_QyhRN5kpqtbMFvTF3aXugGtIC_BmBa59sPO9IvXl8uB7veJZL2kWH8f_zb6XvYrpr3oybvsbG7y_mw</recordid><startdate>200003</startdate><enddate>200003</enddate><creator>Vedantham, Srinivasan</creator><creator>Karellas, Andrew</creator><creator>Suryanarayanan, Sankararaman</creator><creator>Albagli, Douglas</creator><creator>Han, Sung</creator><creator>Tkaczyk, Eric J.</creator><creator>Landberg, Cynthia E.</creator><creator>Opsahl-Ong, Beale</creator><creator>Granfors, Paul R.</creator><creator>Levis, Ilias</creator><creator>D’Orsi, Carl J.</creator><creator>Hendrick, R. 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Edward</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Full breast digital mammography with an amorphous silicon-based flat panel detector: Physical characteristics of a clinical prototype</atitle><jtitle>Medical physics (Lancaster)</jtitle><addtitle>Med Phys</addtitle><date>2000-03</date><risdate>2000</risdate><volume>27</volume><issue>3</issue><spage>558</spage><epage>567</epage><pages>558-567</pages><issn>0094-2405</issn><eissn>2473-4209</eissn><coden>MPHYA6</coden><abstract>The physical characteristics of a clinical prototype amorphous silicon-based flat panel imager for full-breast digital mammography have been investigated. The imager employs a thin thallium doped CsI scintillator on an amorphous silicon matrix of detector elements with a pixel pitch of 100 μm. Objective criteria such as modulation transfer function (MTF), noise power spectrum, detective quantum efficiency (DQE), and noise equivalent quanta were employed for this evaluation. 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subjects	Algorithms Amorphous semiconductors Ancillary equipment breast imaging detective quantum efficiency (DQE) digital mammography Equipment Design image quality Image sensors Mammography Mammography - instrumentation Mammography - methods Medical imaging Modulation transfer functions physics Quantum noise Radiographic Image Enhancement - methods Scattering, Radiation Scintillation detectors Sensitivity and Specificity Silicon Silicon detectors Silicon doping silicon radiation detectors solid scintillation detectors Solid‐state detectors Thallium X-Rays
title	Full breast digital mammography with an amorphous silicon-based flat panel detector: Physical characteristics of a clinical prototype
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