2009
DOI: 10.1118/1.3182348
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TU‐C‐304A‐01: The Need and Feasibility of a Modern Software for Reporting Patient Doses From CT Scans

Abstract: Purpose: To demonstrate the need and feasibility to develop a modern software tool for reporting the organ dose and effective dose for patients undergoing CT examinations. Method and Materials: Existing CT dose reporting software do not meet the need because of the simplified anatomical phantoms, updated ICRP data and scanner information. A new software is designed with original dose data derived from Monte Carlo simulations involving CT scanner models from various companies and anatomically realistic phantoms… Show more

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Cited by 2 publications
(2 citation statements)
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“…Organ doses calculated by OLINDA\EXM based on reference phantoms representing the average patient were found to be in good agreement with patient specific Monte Carlo mean dose estimates [ 41 ]. Monte Carlo results suggest that the difference between the organ equivalent dose estimates in our calculations and those derived from the use of earlier stylized MIRD-type phantoms can be different by a margin as great as 277 %[ 42 ]. Patient-specific organ masses were derived from previous reports on variations in the mass of different body organs in relation to stature and BMI ([ 37 39 ].…”
Section: Discussionmentioning
confidence: 99%
“…Organ doses calculated by OLINDA\EXM based on reference phantoms representing the average patient were found to be in good agreement with patient specific Monte Carlo mean dose estimates [ 41 ]. Monte Carlo results suggest that the difference between the organ equivalent dose estimates in our calculations and those derived from the use of earlier stylized MIRD-type phantoms can be different by a margin as great as 277 %[ 42 ]. Patient-specific organ masses were derived from previous reports on variations in the mass of different body organs in relation to stature and BMI ([ 37 39 ].…”
Section: Discussionmentioning
confidence: 99%
“…74,75 Namely, the advantages afforded by high energy beta emitters stems primarily from 2 factors: (1) a greater energy differential with respect to the Cerenkov emission threshold produces more photons along the beta trajectory (ie, higher photon intensity), and (2) increased range of the beta particle results in a greater fraction of imageable photons created near the tissue surface where photon attenuation is decreased. While CLI remains largely a semi-quantitative planar imaging modality due to the non-penetrating nature of blue-UV frequency photons, tomographic techniques are currently being developed for small-scale applications including preclinical imaging and endoscopic techniques (Cerenkov Luminescence Tomography 76 ). Several groups have already evaluated CLI in preclinical radioimmuno applications including tumor localization and intraoperative surgical guidance with promising results, 73,77 as expected.…”
Section: CLImentioning
confidence: 99%