Objective: The aim of this work was to quantify the extent of set-up errors to conduct a quality assurance (QA) aspect of treatment delivery, verification of the treatment field's position on different days using ...Objective: The aim of this work was to quantify the extent of set-up errors to conduct a quality assurance (QA) aspect of treatment delivery, verification of the treatment field's position on different days using electronic portal. Methods: This study was carried out on 12 patients, treated for pelvis tumor; and total of 240 images obtained by electronic portal image device (EPID) were analyzed. The EPIs acquire using EPID attached to the Siemens linear accelerator. The anatomy match- ing software (Theraview) was used and displacement in two dimensions were noted for each treatment field to study patient setup errors. Results: The percentages of mean deviations less than 5 mm in X direction were 65% & 92%, from 5-10 mm were 31% & 19% and more than 10 mm were 11% & 9% forNP and lateral direction respectively. The percentages of mean deviations less than 5 mm in Y direction were 65% & 63%, from 5-10 mm were 33% & 28% and more than 10 mm were 22% & 29%. The mean deviations in 2D-vector errors were 〈 5 mm in 47% and 46%, 5-10 mm in 36% and 37% and 〉 10 mm in 37% and 37% of images in the NP and lateral direction respectively. Conclusion: The results revealed that the ranges of set up errors are immobilization method to improve reproducibility. The observed variations were not within the limits..展开更多
文摘Objective: The aim of this work was to quantify the extent of set-up errors to conduct a quality assurance (QA) aspect of treatment delivery, verification of the treatment field's position on different days using electronic portal. Methods: This study was carried out on 12 patients, treated for pelvis tumor; and total of 240 images obtained by electronic portal image device (EPID) were analyzed. The EPIs acquire using EPID attached to the Siemens linear accelerator. The anatomy match- ing software (Theraview) was used and displacement in two dimensions were noted for each treatment field to study patient setup errors. Results: The percentages of mean deviations less than 5 mm in X direction were 65% & 92%, from 5-10 mm were 31% & 19% and more than 10 mm were 11% & 9% forNP and lateral direction respectively. The percentages of mean deviations less than 5 mm in Y direction were 65% & 63%, from 5-10 mm were 33% & 28% and more than 10 mm were 22% & 29%. The mean deviations in 2D-vector errors were 〈 5 mm in 47% and 46%, 5-10 mm in 36% and 37% and 〉 10 mm in 37% and 37% of images in the NP and lateral direction respectively. Conclusion: The results revealed that the ranges of set up errors are immobilization method to improve reproducibility. The observed variations were not within the limits..
