Automated determination of chest characteristics of Indonesians as the basis of chest dosimetrical phantom design

Abstract: Purpose: The purpose of this study was to develop software to automatically measure the main areas of the chest, i.e. soft tissue, bone, and air and to implement it in Kraton Regional General Hospital for designing a specific dosimetrical phantom for chest digital radiography (DR) examination.Methods: This study was a retrospective study on all DR images from 2015 to 2019, and computed tomography (CT) images of 102 patients in Digital Imaging and Communications in Medicine (DICOM) format files scanned from Jan… Show more

“…Pyroelectric dosimeters are passive dosimeters (no power supply required) and are currently the most widely used materials based on LiF, which have a very low rate of decay of accumulated charges escaping over time, have an effective atomic number like that of human soft tissue, and have a lower overresponse to low-energy X- and γ -rays than materials with higher atomic numbers [ 10 ]. Chemiluminescent dosimeter has the advantages of small size, ease of use, and good tissue equivalence, but it can only record the dose received by personnel, the feedback period of up to several months, cannot indicate the dose accumulation in real time, and cannot promptly remind personnel of the dose being too high to change the work style to reduce the dose received by personnel [ 11 ]. Currently, a breakthrough has been made in nuclear radiation monitoring systems built on rapidly developing communication technologies [ 12 ].…”

Estimation of Nuclear Medicine Exposure Measures Based on Intelligent Computer Processing

“…Pyroelectric dosimeters are passive dosimeters (no power supply required) and are currently the most widely used materials based on LiF, which have a very low rate of decay of accumulated charges escaping over time, have an effective atomic number like that of human soft tissue, and have a lower overresponse to low-energy X- and γ -rays than materials with higher atomic numbers [ 10 ]. Chemiluminescent dosimeter has the advantages of small size, ease of use, and good tissue equivalence, but it can only record the dose received by personnel, the feedback period of up to several months, cannot indicate the dose accumulation in real time, and cannot promptly remind personnel of the dose being too high to change the work style to reduce the dose received by personnel [ 11 ]. Currently, a breakthrough has been made in nuclear radiation monitoring systems built on rapidly developing communication technologies [ 12 ].…”

Estimation of Nuclear Medicine Exposure Measures Based on Intelligent Computer Processing