Construction of System for Support of Multifacility IVR Dose Analysis and Research

Construction of System for Support of Multifacility IVR Dose Analysis and Research

Although measurement and management of angiographic entrance skin dose (ESD) are deemed extremely important, accurate determination of maximum ESD and its location is generally difficult because of the dependence on therapeutic technique and position. Following our development of body-mounted gear b...

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Veröffentlicht in:Japanese Journal of Radiological Technology 2015, Vol.71(12), pp.1241-1247
Hauptverfasser: Sun, Lue, Hitomi, Go, Futatsuya, Koichiro, Kato, Mamoru, Kawauchi, Satoru, Morota, Koichi, Tsukamoto, Atsuko, Hayakawa, Mikito, Sakae, Takeji, Matsumaru, Yuji, Chida, Koichi, Moritake, Takashi
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Sprache:eng ; jpn
Schlagworte:
Angiography
Arrays
cloud system
Construction
diagnostic reference level (DRL)
entrance skin dose (ESD)
Feedback
Gears
Glass
Humans
interventional radiology (IVR)
Japan
Position (location)
Radiation Dosage
Radiography, Interventional
Radiology Department, Hospital
Radiometry
Receiving
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container_end_page 1247
container_issue 12
container_start_page 1241
container_title Japanese Journal of Radiological Technology
container_volume 71
creator Sun, Lue
Hitomi, Go
Futatsuya, Koichiro
Kato, Mamoru
Kawauchi, Satoru
Morota, Koichi
Tsukamoto, Atsuko
Hayakawa, Mikito
Sakae, Takeji
Matsumaru, Yuji
Chida, Koichi
Moritake, Takashi
description Although measurement and management of angiographic entrance skin dose (ESD) are deemed extremely important, accurate determination of maximum ESD and its location is generally difficult because of the dependence on therapeutic technique and position. Following our development of body-mounted gear bearing radiophotoluminescence glass dosimeter (RPLD) arrays for direct measurement of ESD in cranial and cardiovascular angiography and interventional radiology (IVR), our focus next turned to the limited number of facilities equipped to read RPLD outputs and the need for methods to effectively provide feedback to clinical facilities. As described here, we first constructed an RPLD reading facility capable of sending and receiving RPLDs by post, offering the potential to enable utilization of the developed gear at all hospitals in Japan that perform angiography and IVR. We next developed specialized web-based system to generate dose maps from RPLD dose data, thereby enabling any facility to perform trial system analysis, evaluation, and implementation; and investigated the results and related problems.
doi_str_mv 10.6009/jjrt.2015_JSRT_71.12.1241
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source MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Angiography
Arrays
cloud system
Construction
diagnostic reference level (DRL)
entrance skin dose (ESD)
Feedback
Gears
Glass
Humans
interventional radiology (IVR)
Japan
Position (location)
Radiation Dosage
Radiography, Interventional
Radiology Department, Hospital
Radiometry
Receiving
title Construction of System for Support of Multifacility IVR Dose Analysis and Research
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