Technical note: Sources of systemic error in total body irradiation and total skin electron therapy in vivo measurements using nanoDot optically stimulated luminescence dosimeters within high‐efficiency clinics

Purpose To identify sources of systemic errors and estimate their effects, especially the vendor‐provided sensitivity Ss,i,vendor, on total body irradiation (TBI) and total skin electron therapy (TSET) in vivo OSLD measurements. Materials Calibration nanoDot OSLDs were irradiated 50–300cGy under ref...

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Veröffentlicht in:	Medical physics (Lancaster) 2022-05, Vol.49 (5), p.3489-3496
Hauptverfasser:	Yoon, Suk Whan, Lin, Hui, Mihailidis, Dimitris, Kennedy, Christopher, Li, Taoran
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Sprache:	eng
Schlagworte:	Electrons element sensitivity Humans Luminescence Optically Stimulated Luminescence Dosimetry OSLD Radiation Dosimeters Radiometry total body irradiation total skin electron therapy Whole-Body Irradiation
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creator	Yoon, Suk Whan Lin, Hui Mihailidis, Dimitris Kennedy, Christopher Li, Taoran
description	Purpose To identify sources of systemic errors and estimate their effects, especially the vendor‐provided sensitivity Ss,i,vendor, on total body irradiation (TBI) and total skin electron therapy (TSET) in vivo OSLD measurements. Materials Calibration nanoDot OSLDs were irradiated 50–300cGy under reference conditions. Raw OSLD readings Mraw were corrected by Ss,i,vendor to obtain corrected readings Mcorr. A quadratic calibration curve relating Mcorr to delivered dose Dw was established and commissioned for clinical use. For clinical measurements, directly adjacent pairs of nanoDot OSLDs were placed on TBI and TSET patients with a medical tape with or without 1.5 cm of bolus respectively before treatment. Used OSLDs were bleached between each use until cumulative dose of 15 Gy. Relative difference in corrected counts (∆Mcorr,rel = pair‐difference/mean) was fitted multi‐linearly versus possible sources of systemic errors (Ss,i,vendor, bleaching history, cumulative dose, and age differences). Total of 101 TBI and 110 TSET measurement pairs from calibrated batches were analyzed. Results Ss,i,vendor introduced a residual systemic error to corrected readings Mcorr (−0.98% per +0.01, p = 4e−12). Given Ss,i,vendor distribution is σ = ±0.025, measured dose 1−σ error is ±2.5%, compared to ±2.8% uncertainty reported in the literature which may include this systemic error. Bleaching or cumulative dose did not affect Mcorr significantly after adjusting for Ss,i,vendor. Adjusting for the systemic error in Ss,i,vendor decreased two‐sample mean Dw median absolute error from ±2.6% to ±1.9% and 95‐percentile absolute error from ±7.1% to ±5.5%. Variability between paired clinical OSLDs was larger for TBI versus TSET at σpd = ±4.7% and ±6.3%, respectively, despite similar predictor distributions. Conclusion Our findings suggest that Mraw correction via vendor‐provided sensitivity results in a small but significant systemic error. Dosimeters with outlier sensitivities should be excluded during batch calibration to minimize error. Bleaching and cumulative dose likely minimally affect measurements if cumulative dose is controlled below 15 Gy. Random errors were higher for TSET than TBI.
doi_str_mv	10.1002/mp.15571
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Materials Calibration nanoDot OSLDs were irradiated 50–300cGy under reference conditions. Raw OSLD readings Mraw were corrected by Ss,i,vendor to obtain corrected readings Mcorr. A quadratic calibration curve relating Mcorr to delivered dose Dw was established and commissioned for clinical use. For clinical measurements, directly adjacent pairs of nanoDot OSLDs were placed on TBI and TSET patients with a medical tape with or without 1.5 cm of bolus respectively before treatment. Used OSLDs were bleached between each use until cumulative dose of 15 Gy. Relative difference in corrected counts (∆Mcorr,rel = pair‐difference/mean) was fitted multi‐linearly versus possible sources of systemic errors (Ss,i,vendor, bleaching history, cumulative dose, and age differences). Total of 101 TBI and 110 TSET measurement pairs from calibrated batches were analyzed. Results Ss,i,vendor introduced a residual systemic error to corrected readings Mcorr (−0.98% per +0.01, p = 4e−12). Given Ss,i,vendor distribution is σ = ±0.025, measured dose 1−σ error is ±2.5%, compared to ±2.8% uncertainty reported in the literature which may include this systemic error. Bleaching or cumulative dose did not affect Mcorr significantly after adjusting for Ss,i,vendor. Adjusting for the systemic error in Ss,i,vendor decreased two‐sample mean Dw median absolute error from ±2.6% to ±1.9% and 95‐percentile absolute error from ±7.1% to ±5.5%. Variability between paired clinical OSLDs was larger for TBI versus TSET at σpd = ±4.7% and ±6.3%, respectively, despite similar predictor distributions. Conclusion Our findings suggest that Mraw correction via vendor‐provided sensitivity results in a small but significant systemic error. Dosimeters with outlier sensitivities should be excluded during batch calibration to minimize error. Bleaching and cumulative dose likely minimally affect measurements if cumulative dose is controlled below 15 Gy. Random errors were higher for TSET than TBI.</description><identifier>ISSN: 0094-2405</identifier><identifier>EISSN: 2473-4209</identifier><identifier>DOI: 10.1002/mp.15571</identifier><identifier>PMID: 35213731</identifier><language>eng</language><publisher>United States</publisher><subject>Electrons ; element sensitivity ; Humans ; Luminescence ; Optically Stimulated Luminescence Dosimetry ; OSLD ; Radiation Dosimeters ; Radiometry ; total body irradiation ; total skin electron therapy ; Whole-Body Irradiation</subject><ispartof>Medical physics (Lancaster), 2022-05, Vol.49 (5), p.3489-3496</ispartof><rights>2022 American Association of Physicists in Medicine.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-c2821-eef8cf2b794470a80d8fa60a601015bb015d2d13cd2462104f828df5e95576843</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://onlinelibrary.wiley.com/doi/pdf/10.1002%2Fmp.15571$$EPDF$$P50$$Gwiley$$H</linktopdf><linktohtml>$$Uhttps://onlinelibrary.wiley.com/doi/full/10.1002%2Fmp.15571$$EHTML$$P50$$Gwiley$$H</linktohtml><link.rule.ids>314,780,784,1417,27924,27925,45574,45575</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/35213731$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Yoon, Suk Whan</creatorcontrib><creatorcontrib>Lin, Hui</creatorcontrib><creatorcontrib>Mihailidis, Dimitris</creatorcontrib><creatorcontrib>Kennedy, Christopher</creatorcontrib><creatorcontrib>Li, Taoran</creatorcontrib><title>Technical note: Sources of systemic error in total body irradiation and total skin electron therapy in vivo measurements using nanoDot optically stimulated luminescence dosimeters within high‐efficiency clinics</title><title>Medical physics (Lancaster)</title><addtitle>Med Phys</addtitle><description>Purpose To identify sources of systemic errors and estimate their effects, especially the vendor‐provided sensitivity Ss,i,vendor, on total body irradiation (TBI) and total skin electron therapy (TSET) in vivo OSLD measurements. Materials Calibration nanoDot OSLDs were irradiated 50–300cGy under reference conditions. Raw OSLD readings Mraw were corrected by Ss,i,vendor to obtain corrected readings Mcorr. A quadratic calibration curve relating Mcorr to delivered dose Dw was established and commissioned for clinical use. For clinical measurements, directly adjacent pairs of nanoDot OSLDs were placed on TBI and TSET patients with a medical tape with or without 1.5 cm of bolus respectively before treatment. Used OSLDs were bleached between each use until cumulative dose of 15 Gy. Relative difference in corrected counts (∆Mcorr,rel = pair‐difference/mean) was fitted multi‐linearly versus possible sources of systemic errors (Ss,i,vendor, bleaching history, cumulative dose, and age differences). Total of 101 TBI and 110 TSET measurement pairs from calibrated batches were analyzed. Results Ss,i,vendor introduced a residual systemic error to corrected readings Mcorr (−0.98% per +0.01, p = 4e−12). Given Ss,i,vendor distribution is σ = ±0.025, measured dose 1−σ error is ±2.5%, compared to ±2.8% uncertainty reported in the literature which may include this systemic error. Bleaching or cumulative dose did not affect Mcorr significantly after adjusting for Ss,i,vendor. Adjusting for the systemic error in Ss,i,vendor decreased two‐sample mean Dw median absolute error from ±2.6% to ±1.9% and 95‐percentile absolute error from ±7.1% to ±5.5%. Variability between paired clinical OSLDs was larger for TBI versus TSET at σpd = ±4.7% and ±6.3%, respectively, despite similar predictor distributions. Conclusion Our findings suggest that Mraw correction via vendor‐provided sensitivity results in a small but significant systemic error. Dosimeters with outlier sensitivities should be excluded during batch calibration to minimize error. Bleaching and cumulative dose likely minimally affect measurements if cumulative dose is controlled below 15 Gy. Random errors were higher for TSET than TBI.</description><subject>Electrons</subject><subject>element sensitivity</subject><subject>Humans</subject><subject>Luminescence</subject><subject>Optically Stimulated Luminescence Dosimetry</subject><subject>OSLD</subject><subject>Radiation Dosimeters</subject><subject>Radiometry</subject><subject>total body irradiation</subject><subject>total skin electron therapy</subject><subject>Whole-Body Irradiation</subject><issn>0094-2405</issn><issn>2473-4209</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kUuKFTEUhoMo9rUVXIFk6KTaPOrpTLp9QYuC7bhIJSdd0TzKJNVNzVyCi3MFrsRc71VHQjiBnC8fJ_kRekzJGSWEPXPLGW2ajt5BO1Z3vKoZGe6iHSFDXbGaNCfoQUqfCSEtb8h9dMIbRnnH6Q79uAI5eyOFxT5keI4_hjVKSDhonLaUwRmJIcYQsfE4h1zAKagNmxiFMiKb4LHw6thKXwoFFmSO5TzPEMWy7W_emJuAHYi0RnDgc8JrMv4ae-HDRcg4LHk_hN1wysatVmRQ2K7OeEgSvASsQjIOMsSEb02ei3M21_PPb99BayNNYTYsrSlvSQ_RPS1sgkfH_RR9evXy6vxNdfn-9dvzF5eVZD2jFYDupWZTN9R1R0RPVK9FS8qihDbTVIpiinKpWN0ySmrds17pBoby121f81P09OBdYvi6QsqjM2Vaa4WHsKaRtZz39dB2_B8qY0gpgh6XaJyI20jJuM9wdMv4O8OCPjla18mB-gv-Ca0A1QG4NRa2_4rGdx8Owl9kh6wP</recordid><startdate>202205</startdate><enddate>202205</enddate><creator>Yoon, Suk Whan</creator><creator>Lin, Hui</creator><creator>Mihailidis, Dimitris</creator><creator>Kennedy, Christopher</creator><creator>Li, Taoran</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>202205</creationdate><title>Technical note: Sources of systemic error in total body irradiation and total skin electron therapy in vivo measurements using nanoDot optically stimulated luminescence dosimeters within high‐efficiency clinics</title><author>Yoon, Suk Whan ; Lin, Hui ; Mihailidis, Dimitris ; Kennedy, Christopher ; Li, Taoran</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c2821-eef8cf2b794470a80d8fa60a601015bb015d2d13cd2462104f828df5e95576843</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Electrons</topic><topic>element sensitivity</topic><topic>Humans</topic><topic>Luminescence</topic><topic>Optically Stimulated Luminescence Dosimetry</topic><topic>OSLD</topic><topic>Radiation Dosimeters</topic><topic>Radiometry</topic><topic>total body irradiation</topic><topic>total skin electron therapy</topic><topic>Whole-Body Irradiation</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Yoon, Suk Whan</creatorcontrib><creatorcontrib>Lin, Hui</creatorcontrib><creatorcontrib>Mihailidis, Dimitris</creatorcontrib><creatorcontrib>Kennedy, Christopher</creatorcontrib><creatorcontrib>Li, Taoran</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Medical physics (Lancaster)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Yoon, Suk Whan</au><au>Lin, Hui</au><au>Mihailidis, Dimitris</au><au>Kennedy, Christopher</au><au>Li, Taoran</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Technical note: Sources of systemic error in total body irradiation and total skin electron therapy in vivo measurements using nanoDot optically stimulated luminescence dosimeters within high‐efficiency clinics</atitle><jtitle>Medical physics (Lancaster)</jtitle><addtitle>Med Phys</addtitle><date>2022-05</date><risdate>2022</risdate><volume>49</volume><issue>5</issue><spage>3489</spage><epage>3496</epage><pages>3489-3496</pages><issn>0094-2405</issn><eissn>2473-4209</eissn><abstract>Purpose To identify sources of systemic errors and estimate their effects, especially the vendor‐provided sensitivity Ss,i,vendor, on total body irradiation (TBI) and total skin electron therapy (TSET) in vivo OSLD measurements. Materials Calibration nanoDot OSLDs were irradiated 50–300cGy under reference conditions. Raw OSLD readings Mraw were corrected by Ss,i,vendor to obtain corrected readings Mcorr. A quadratic calibration curve relating Mcorr to delivered dose Dw was established and commissioned for clinical use. For clinical measurements, directly adjacent pairs of nanoDot OSLDs were placed on TBI and TSET patients with a medical tape with or without 1.5 cm of bolus respectively before treatment. Used OSLDs were bleached between each use until cumulative dose of 15 Gy. Relative difference in corrected counts (∆Mcorr,rel = pair‐difference/mean) was fitted multi‐linearly versus possible sources of systemic errors (Ss,i,vendor, bleaching history, cumulative dose, and age differences). Total of 101 TBI and 110 TSET measurement pairs from calibrated batches were analyzed. Results Ss,i,vendor introduced a residual systemic error to corrected readings Mcorr (−0.98% per +0.01, p = 4e−12). Given Ss,i,vendor distribution is σ = ±0.025, measured dose 1−σ error is ±2.5%, compared to ±2.8% uncertainty reported in the literature which may include this systemic error. Bleaching or cumulative dose did not affect Mcorr significantly after adjusting for Ss,i,vendor. Adjusting for the systemic error in Ss,i,vendor decreased two‐sample mean Dw median absolute error from ±2.6% to ±1.9% and 95‐percentile absolute error from ±7.1% to ±5.5%. Variability between paired clinical OSLDs was larger for TBI versus TSET at σpd = ±4.7% and ±6.3%, respectively, despite similar predictor distributions. Conclusion Our findings suggest that Mraw correction via vendor‐provided sensitivity results in a small but significant systemic error. Dosimeters with outlier sensitivities should be excluded during batch calibration to minimize error. Bleaching and cumulative dose likely minimally affect measurements if cumulative dose is controlled below 15 Gy. Random errors were higher for TSET than TBI.</abstract><cop>United States</cop><pmid>35213731</pmid><doi>10.1002/mp.15571</doi><tpages>8</tpages></addata></record>
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subjects	Electrons element sensitivity Humans Luminescence Optically Stimulated Luminescence Dosimetry OSLD Radiation Dosimeters Radiometry total body irradiation total skin electron therapy Whole-Body Irradiation
title	Technical note: Sources of systemic error in total body irradiation and total skin electron therapy in vivo measurements using nanoDot optically stimulated luminescence dosimeters within high‐efficiency clinics
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