Title of article
Full breast digital mammography with an amorphous silicon-based flat panel detector: Physical characteristics of a clinical prototype
Author/Authors
Granfors، Paul R. نويسنده , , Vedantham، Srinivasan نويسنده , , Karellas، Andrew نويسنده , , Suryanarayanan، Sankararaman نويسنده , , Levis، Ilias نويسنده , , DOrsi، Carl J. نويسنده , , Hendrick، R. Edward نويسنده , , Albagli، Douglas نويسنده , , Han، Sung نويسنده , , Tkaczyk، Eric J. نويسنده , , Landberg، Cynthia E. نويسنده , , Opsahl-Ong، Beale نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2000
Pages
-557
From page
558
To page
0
Abstract
High resolution quantitative autoradiography (HRQAR) is a novel technique that has been developed in our laboratory and applied lo the microdosimetry of boron neutron capture therapy (BNCT). High resolution quantitative autoradiography is employed to define the microdistribution of boron-10 atoms within a 1-2 (mu)m frozen tissue section. This microdistribution is used as input to a novel two-dimensional Monte Carlo charged particle transport calculation that computes various microdosimetric parameters, such as the number of nuclear "hits," energy absorbed in the nuclei, etc., within the environment of actual tissue morphology (i.e., cell nuclei, cytoplasm, and intracellular space). Stereological transformation is then implemented to transform the two-dimensional calculations into effectively three-dimensional results. In the present study no seek to demonstrate the validity of the surrogate two-dimensional 2-D computation as being quantitatively equivalent to a hypothetical full 3-D calculation. The results show that within the limitations of the test parameters used the surrogate 2-D and 3-D results are completely equivalent within the statistical constraints of the Monte Carlo calculations. Limitations of this approach also are evaluated, including a Monte Carlo calculation of the influence of the thickness of the histological tissue section and the track detector and the influence of (4)He and (7)Li particle lateral and range straggling.
Keywords
breast imaging , digital mammography , physics , detective quantum efficiency (DQE) , image quality
Journal title
MEDICAL PHYSICS
Serial Year
2000
Journal title
MEDICAL PHYSICS
Record number
1948
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