Use of real-time electronic extremity dosimeters for monitoring and optimisation of radiopharmacy technique

Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to id...

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Published inJournal of radiological protection Vol. 44; no. 3; pp. 31513 - 31521
Main Authors Cournane, S, McCavana, J, Maguire, D, Tutty, L, Harris, L, Lucey, J, Kenneally, C
Format Journal Article
LanguageEnglish
Published England IOP Publishing 01.09.2024
Subjects
dosimeters
extremity dose
Fingers - radiation effects
Humans
nuclear medicine
Occupational Exposure - analysis
Occupational Exposure - prevention & control
Radiation Dosage
Radiation Dosimeters
Radiation Monitoring - instrumentation
Radiation Monitoring - methods
Radiation Protection
Radiopharmaceuticals - analysis
Thermoluminescent Dosimetry
dosimeters
extremity dose
nuclear medicine
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Abstract Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to identify specific procedural steps associated with higher fingertip doses and, subsequently, reduce dose through promotion of optimised radiation protection practises. Five radiopharmacy operators were monitored using an ED3 active extremity dosemeter with a detector attached to each tip of the index fingers. Dose rate and accumulated dose data were matched to the handled radioactivity data, of 99m Tc-labelled radiopharmaceuticals only, with the dose per activity ( μ Sv MBq −1 ) calculated for each step. Once baseline dose data was established, an educational session identified technique adjustments toward improved radiation protection. A subsequent monitored session was undertaken with the dose data compared to quantify changes in operator doses. Radiopharmacy steps which significantly contributed to extremity doses were identified. The average accumulated dose per activity across all procedural steps for the 99m Tc-labelled radiopharmaceuticals for all operators before the educational session was 0.042 ± 0.045 μ Sv MBq −1 and 0.042 ± 0.041 μ Sv MBq −1 ( n = 89) for non-dominant and dominant index fingertips, respectively, and 0.030 ± 0.044 μ Sv MBq −1 and 0.031 ± 0.032 μ Sv MBq −1 ( n = 97), respectively, afterwards. Overall, there was an average 40.7% reduction in the total extremity dose received after the educational session. Real-time electronic extremity dosemeters for monitoring radiopharmacy extremity dose presented as a useful tool for incorporation into radiation protection education and training, towards optimised radiopharmacy technique.
AbstractList Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to identify specific procedural steps associated with higher fingertip doses and, subsequently, reduce dose through promotion of optimised radiation protection practises. Five radiopharmacy operators were monitored using an ED3 active extremity dosemeter with a detector attached to each tip of the index fingers. Dose rate and accumulated dose data were matched to the handled radioactivity data, of99mTc-labelled radiopharmaceuticals only, with the dose per activity (μSv MBq-1) calculated for each step. Once baseline dose data was established, an educational session identified technique adjustments toward improved radiation protection. A subsequent monitored session was undertaken with the dose data compared to quantify changes in operator doses. Radiopharmacy steps which significantly contributed to extremity doses were identified. The average accumulated dose per activity across all procedural steps for the99mTc-labelled radiopharmaceuticals for all operators before the educational session was 0.042 ± 0.045μSv MBq-1and 0.042 ± 0.041μSv MBq-1(n= 89) for non-dominant and dominant index fingertips, respectively, and 0.030 ± 0.044μSv MBq-1and 0.031 ± 0.032μSv MBq-1(n= 97), respectively, afterwards. Overall, there was an average 40.7% reduction in the total extremity dose received after the educational session. Real-time electronic extremity dosemeters for monitoring radiopharmacy extremity dose presented as a useful tool for incorporation into radiation protection education and training, towards optimised radiopharmacy technique.Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to identify specific procedural steps associated with higher fingertip doses and, subsequently, reduce dose through promotion of optimised radiation protection practises. Five radiopharmacy operators were monitored using an ED3 active extremity dosemeter with a detector attached to each tip of the index fingers. Dose rate and accumulated dose data were matched to the handled radioactivity data, of99mTc-labelled radiopharmaceuticals only, with the dose per activity (μSv MBq-1) calculated for each step. Once baseline dose data was established, an educational session identified technique adjustments toward improved radiation protection. A subsequent monitored session was undertaken with the dose data compared to quantify changes in operator doses. Radiopharmacy steps which significantly contributed to extremity doses were identified. The average accumulated dose per activity across all procedural steps for the99mTc-labelled radiopharmaceuticals for all operators before the educational session was 0.042 ± 0.045μSv MBq-1and 0.042 ± 0.041μSv MBq-1(n= 89) for non-dominant and dominant index fingertips, respectively, and 0.030 ± 0.044μSv MBq-1and 0.031 ± 0.032μSv MBq-1(n= 97), respectively, afterwards. Overall, there was an average 40.7% reduction in the total extremity dose received after the educational session. Real-time electronic extremity dosemeters for monitoring radiopharmacy extremity dose presented as a useful tool for incorporation into radiation protection education and training, towards optimised radiopharmacy technique.
Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to identify specific procedural steps associated with higher fingertip doses and, subsequently, reduce dose through promotion of optimised radiation protection practises. Five radiopharmacy operators were monitored using an ED3 active extremity dosemeter with a detector attached to each tip of the index fingers. Dose rate and accumulated dose data were matched to the handled radioactivity data, of Tc-labelled radiopharmaceuticals only, with the dose per activity ( Sv MBq ) calculated for each step. Once baseline dose data was established, an educational session identified technique adjustments toward improved radiation protection. A subsequent monitored session was undertaken with the dose data compared to quantify changes in operator doses. Radiopharmacy steps which significantly contributed to extremity doses were identified. The average accumulated dose per activity across all procedural steps for the Tc-labelled radiopharmaceuticals for all operators before the educational session was 0.042 ± 0.045 Sv MBq and 0.042 ± 0.041 Sv MBq ( = 89) for non-dominant and dominant index fingertips, respectively, and 0.030 ± 0.044 Sv MBq and 0.031 ± 0.032 Sv MBq ( = 97), respectively, afterwards. Overall, there was an average 40.7% reduction in the total extremity dose received after the educational session. Real-time electronic extremity dosemeters for monitoring radiopharmacy extremity dose presented as a useful tool for incorporation into radiation protection education and training, towards optimised radiopharmacy technique.
Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs) are currently used for monitoring fingertip doses. This study aimed to use real-time dosemeters to monitor radiopharmacy extremity doses to identify specific procedural steps associated with higher fingertip doses and, subsequently, reduce dose through promotion of optimised radiation protection practises. Five radiopharmacy operators were monitored using an ED3 active extremity dosemeter with a detector attached to each tip of the index fingers. Dose rate and accumulated dose data were matched to the handled radioactivity data, of 99m Tc-labelled radiopharmaceuticals only, with the dose per activity ( μ Sv MBq −1 ) calculated for each step. Once baseline dose data was established, an educational session identified technique adjustments toward improved radiation protection. A subsequent monitored session was undertaken with the dose data compared to quantify changes in operator doses. Radiopharmacy steps which significantly contributed to extremity doses were identified. The average accumulated dose per activity across all procedural steps for the 99m Tc-labelled radiopharmaceuticals for all operators before the educational session was 0.042 ± 0.045 μ Sv MBq −1 and 0.042 ± 0.041 μ Sv MBq −1 ( n = 89) for non-dominant and dominant index fingertips, respectively, and 0.030 ± 0.044 μ Sv MBq −1 and 0.031 ± 0.032 μ Sv MBq −1 ( n = 97), respectively, afterwards. Overall, there was an average 40.7% reduction in the total extremity dose received after the educational session. Real-time electronic extremity dosemeters for monitoring radiopharmacy extremity dose presented as a useful tool for incorporation into radiation protection education and training, towards optimised radiopharmacy technique.
Author Lucey, J
Cournane, S
Tutty, L
Kenneally, C
Harris, L
McCavana, J
Maguire, D
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Keywords dosimeters
extremity dose
nuclear medicine
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Snippet Radiopharmacy staff members are subject to extremity radiation doses, particularly to the fingertips. Dosemeters, such as, thermoluminescent detectors (TLDs)...
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SubjectTerms dosimeters
extremity dose
Fingers - radiation effects
Humans
nuclear medicine
Occupational Exposure - analysis
Occupational Exposure - prevention & control
Radiation Dosage
Radiation Dosimeters
Radiation Monitoring - instrumentation
Radiation Monitoring - methods
Radiation Protection
Radiopharmaceuticals - analysis
Thermoluminescent Dosimetry
Title Use of real-time electronic extremity dosimeters for monitoring and optimisation of radiopharmacy technique
URI https://iopscience.iop.org/article/10.1088/1361-6498/ad71d9
https://www.ncbi.nlm.nih.gov/pubmed/39168137
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Volume 44
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