High-precision prostate cancer irradiation by clinical application of an offline patient setup verification procedure, using portal imaging

Purpose : To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI). how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offl...

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Bibliographic Details
Published inInternational journal of radiation oncology, biology, physics Vol. 35; no. 2; pp. 321 - 332
Main Authors Bel, Arjan, Vos, Pieter H., Rodrigus, Patrick T.R., Creutzberg, Carien L., Visser, Andries G., Stroom, Joep C., Lebesque, Joos V.
Format Journal Article
LanguageEnglish
Published New York, NY Elsevier Inc 01.05.1996
Elsevier
Subjects
Biological and medical sciences
Computerized, statistical medical data processing and models in biomedicine
Decision rules
Feasibility Studies
Humans
Male
Medical management aid. Diagnosis aid
Medical sciences
Portal imaging
Prostate cancer
Prostatic Neoplasms - radiotherapy
Radiotherapy Planning, Computer-Assisted - methods
Setup accuracy
Decision rules
Setup accuracy
Portal imaging
Prostate cancer
Human
Electronic equipment
Urinary system disease
Prostate disease
Image processing
High precision
Verification
Malignant tumor
Radiotherapy
Decision rule
Biomedical data processing
Cancerology
Treatment
Diagnostic aid
Male genital diseases
Prostate
Online AccessGet full text
ISSN0360-3016
1879-355X
DOI10.1016/0360-3016(95)02395-X

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Abstract Purpose : To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI). how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offline setup verification and correction procedure, using portal imaging. Methods and Materials : The verification procedure consisted of two stages. During the first stage, setup deviation were measured during a number ( max) of consecutive initial treatment sessions. The length of the average three dimensional (3D) setup deviation vector was compared with an action level for corrections, which shrunk with the number of setup measurements. After a correction was applied, N max measurements had to be performed again. Each institution chose different values for the initial action level (6, 9, and 10 mm) and N max (2 and 4). The choice of these parameters was based on a simlation of the procedure, using as input preestimated values of random and systematic deviations in each institution. During the second stage of the procedure, with weekly setup measurements, the AvL used a different criterion (“outlier detection”) for corrective actions than the DDHC and the BVI (“sliding average”). After each correction the first stage of the procedure was restarted. The procedure was tested for 151 patients (62 in AvL, 47 in DDHC, and 42 in BVI) treated for prostate carcinoma. Treatment techniques and portal image acquisition and analysis were different in each institution. Results : The actual distribution of random and systemic deviations without corrections were estimated by eliminating the effect of the corrections. The percentage of mean (systematic) 3D deviations larger than 5mm was 26% for the AvL and the DDHC, and 36% for the BVI. The setup accuracy after application of the procedure was considerably improved (percentage of mean 3D deviations larger than 5 mm was 1.6% in the AvL and 0% in the DDHC and BVI), in agreement with the results of the simulation. The number of corrections (about 0.7 on the average per patient) was not larger than predicted. Conclusion : The verification procedure appeared to be feasible in the three institutions and enable a significance reduction of mean 3D setup deviations. The computer simulation of the procedure proved to be a useful tool, because it enable an accurate prediction of the setup accuracy and the required number of corrections.
AbstractList Purpose : To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI). how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offline setup verification and correction procedure, using portal imaging. Methods and Materials : The verification procedure consisted of two stages. During the first stage, setup deviation were measured during a number ( max) of consecutive initial treatment sessions. The length of the average three dimensional (3D) setup deviation vector was compared with an action level for corrections, which shrunk with the number of setup measurements. After a correction was applied, N max measurements had to be performed again. Each institution chose different values for the initial action level (6, 9, and 10 mm) and N max (2 and 4). The choice of these parameters was based on a simlation of the procedure, using as input preestimated values of random and systematic deviations in each institution. During the second stage of the procedure, with weekly setup measurements, the AvL used a different criterion (“outlier detection”) for corrective actions than the DDHC and the BVI (“sliding average”). After each correction the first stage of the procedure was restarted. The procedure was tested for 151 patients (62 in AvL, 47 in DDHC, and 42 in BVI) treated for prostate carcinoma. Treatment techniques and portal image acquisition and analysis were different in each institution. Results : The actual distribution of random and systemic deviations without corrections were estimated by eliminating the effect of the corrections. The percentage of mean (systematic) 3D deviations larger than 5mm was 26% for the AvL and the DDHC, and 36% for the BVI. The setup accuracy after application of the procedure was considerably improved (percentage of mean 3D deviations larger than 5 mm was 1.6% in the AvL and 0% in the DDHC and BVI), in agreement with the results of the simulation. The number of corrections (about 0.7 on the average per patient) was not larger than predicted. Conclusion : The verification procedure appeared to be feasible in the three institutions and enable a significance reduction of mean 3D setup deviations. The computer simulation of the procedure proved to be a useful tool, because it enable an accurate prediction of the setup accuracy and the required number of corrections.
To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI), how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offline setup verification and correction procedure, using portal imaging.PURPOSETo investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI), how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offline setup verification and correction procedure, using portal imaging.The verification procedure consisted of two stages. During the first stage, setup deviations were measured during a number (Nmax) of consecutive initial treatment sessions. The length of the average three dimensional (3D) setup deviation vector was compared with an action level for corrections, which shrunk with the number of setup measurements. After a correction was applied, Nmax measurements had to be performed again. Each institution chose different values for the initial action level (6, 9, and 10 mm) and Nmax (2 and 4). The choice of these parameters was based on a simulation of the procedure, using as input preestimated values of random and systematic deviations in each institution. During the second stage of the procedure, with weekly setup measurements, the AvL used a different criterion ("outlier detection") for corrective actions than the DDHC and the BVI ("sliding average"). After each correction the first stage of the procedure was restarted. The procedure was tested for 151 patients (62 in AvL, 47 in DDHC, and 42 in BVI) treated for prostate carcinoma. Treatment techniques and portal image acquisition and analysis were different in each institution.METHODS AND MATERIALSThe verification procedure consisted of two stages. During the first stage, setup deviations were measured during a number (Nmax) of consecutive initial treatment sessions. The length of the average three dimensional (3D) setup deviation vector was compared with an action level for corrections, which shrunk with the number of setup measurements. After a correction was applied, Nmax measurements had to be performed again. Each institution chose different values for the initial action level (6, 9, and 10 mm) and Nmax (2 and 4). The choice of these parameters was based on a simulation of the procedure, using as input preestimated values of random and systematic deviations in each institution. During the second stage of the procedure, with weekly setup measurements, the AvL used a different criterion ("outlier detection") for corrective actions than the DDHC and the BVI ("sliding average"). After each correction the first stage of the procedure was restarted. The procedure was tested for 151 patients (62 in AvL, 47 in DDHC, and 42 in BVI) treated for prostate carcinoma. Treatment techniques and portal image acquisition and analysis were different in each institution.The actual distributions of random and systematic deviations without corrections were estimated by eliminating the effect of the corrections. The percentage of mean (systematic) 3D deviations larger than 5 mm was 26% for the AvL and the DDHC, and 36% for the BVI. The setup accuracy after application of the procedure was considerably improved (percentage of mean 3D deviations larger than 5 mm was 1.6% in the AvL and 0% in the DDHC and BVI), in agreement with the results of the simulation. The number of corrections (about 0.7 on the average per patient) was not larger than predicted.RESULTSThe actual distributions of random and systematic deviations without corrections were estimated by eliminating the effect of the corrections. The percentage of mean (systematic) 3D deviations larger than 5 mm was 26% for the AvL and the DDHC, and 36% for the BVI. The setup accuracy after application of the procedure was considerably improved (percentage of mean 3D deviations larger than 5 mm was 1.6% in the AvL and 0% in the DDHC and BVI), in agreement with the results of the simulation. The number of corrections (about 0.7 on the average per patient) was not larger than predicted.The verification procedure appeared to be feasible in the three institutions and enabled a significant reduction of mean 3D setup deviations. The computer simulation of the procedure proved to be a useful tool, because it enabled an accurate prediction of the setup accuracy and the required number of corrections.CONCLUSIONThe verification procedure appeared to be feasible in the three institutions and enabled a significant reduction of mean 3D setup deviations. The computer simulation of the procedure proved to be a useful tool, because it enabled an accurate prediction of the setup accuracy and the required number of corrections.
To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr, Bernard Verbeeten Institute (BVI), how much the patient setup accuracy for irradiation of prostate cancer can be improved by an offline setup verification and correction procedure, using portal imaging. The verification procedure consisted of two stages. During the first stage, setup deviations were measured during a number (Nmax) of consecutive initial treatment sessions. The length of the average three dimensional (3D) setup deviation vector was compared with an action level for corrections, which shrunk with the number of setup measurements. After a correction was applied, Nmax measurements had to be performed again. Each institution chose different values for the initial action level (6, 9, and 10 mm) and Nmax (2 and 4). The choice of these parameters was based on a simulation of the procedure, using as input preestimated values of random and systematic deviations in each institution. During the second stage of the procedure, with weekly setup measurements, the AvL used a different criterion ("outlier detection") for corrective actions than the DDHC and the BVI ("sliding average"). After each correction the first stage of the procedure was restarted. The procedure was tested for 151 patients (62 in AvL, 47 in DDHC, and 42 in BVI) treated for prostate carcinoma. Treatment techniques and portal image acquisition and analysis were different in each institution. The actual distributions of random and systematic deviations without corrections were estimated by eliminating the effect of the corrections. The percentage of mean (systematic) 3D deviations larger than 5 mm was 26% for the AvL and the DDHC, and 36% for the BVI. The setup accuracy after application of the procedure was considerably improved (percentage of mean 3D deviations larger than 5 mm was 1.6% in the AvL and 0% in the DDHC and BVI), in agreement with the results of the simulation. The number of corrections (about 0.7 on the average per patient) was not larger than predicted. The verification procedure appeared to be feasible in the three institutions and enabled a significant reduction of mean 3D setup deviations. The computer simulation of the procedure proved to be a useful tool, because it enabled an accurate prediction of the setup accuracy and the required number of corrections.
Author Vos, Pieter H.
Rodrigus, Patrick T.R.
Visser, Andries G.
Stroom, Joep C.
Creutzberg, Carien L.
Bel, Arjan
Lebesque, Joos V.
Author_xml – sequence: 1
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  surname: Bel
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  givenname: Pieter H.
  surname: Vos
  fullname: Vos, Pieter H.
  organization: Dr. Daniel den Hoed Cancer Center, Rotterdam, The Netherlands
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  givenname: Patrick T.R.
  surname: Rodrigus
  fullname: Rodrigus, Patrick T.R.
  organization: Dr. Bernard Verbeeten Institute, Tilburg, The Netherlands
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  givenname: Carien L.
  surname: Creutzberg
  fullname: Creutzberg, Carien L.
  organization: Dr. Daniel den Hoed Cancer Center, Rotterdam, The Netherlands
– sequence: 5
  givenname: Andries G.
  surname: Visser
  fullname: Visser, Andries G.
  organization: Dr. Daniel den Hoed Cancer Center, Rotterdam, The Netherlands
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  surname: Stroom
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  fullname: Lebesque, Joos V.
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Issue 2
Keywords Decision rules
Setup accuracy
Portal imaging
Prostate cancer
Human
Electronic equipment
Urinary system disease
Prostate disease
Image processing
High precision
Verification
Malignant tumor
Radiotherapy
Decision rule
Biomedical data processing
Cancerology
Treatment
Diagnostic aid
Male genital diseases
Prostate
Language English
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PublicationTitle International journal of radiation oncology, biology, physics
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8635953 - Int J Radiat Oncol Biol Phys. 1996 May 1;35(2):415-6
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  year: 1992
  ident: 10.1016/0360-3016(95)02395-X_BIB7
  article-title: Evaluation of the time trend of setup deviations during the course of pelvic irradiation using an electronic portal imaging device
  publication-title: Radiother. Oncol.
– reference: 8635953 - Int J Radiat Oncol Biol Phys. 1996 May 1;35(2):415-6
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Snippet Purpose : To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC),...
To investigate in three institutions, The Netherlands Cancer Institute (Antoni van Leeuwenhoek Huis [AvL]), Dr. Daniel den Hoed Cancer Center (DDHC), and Dr,...
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SubjectTerms Biological and medical sciences
Computerized, statistical medical data processing and models in biomedicine
Decision rules
Feasibility Studies
Humans
Male
Medical management aid. Diagnosis aid
Medical sciences
Portal imaging
Prostate cancer
Prostatic Neoplasms - radiotherapy
Radiotherapy Planning, Computer-Assisted - methods
Setup accuracy
Title High-precision prostate cancer irradiation by clinical application of an offline patient setup verification procedure, using portal imaging
URI https://dx.doi.org/10.1016/0360-3016(95)02395-X
https://www.ncbi.nlm.nih.gov/pubmed/8635940
https://www.proquest.com/docview/78058171
Volume 35
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