Application of failure mode and effects analysis and fault tree analysis to IMRT planning

Q4 Medicine

中华放射医学与防护杂志 Pub Date : 2019-09-25 DOI:10.3760/CMA.J.ISSN.0254-5098.2019.09.007

S. Ding, Jian-Bin Hu, Jun Zhang, H. Gu, Yixuan Wang, Yi-mei Liu

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Abstract

Objective To investigate IMRT planning process using the combined application of failure modes and effects analysis (FMEA) and fault tree analysis (FTA) by reference to the report of Task Group 100 of the AAPM, and stablish and optimize the quality. Methods A multidisciplinary team detailed the process mapping of IMRT planning using Eclipse TPS. The team evaluated the potential failure modes (FMs) of every process step. The evaluation was divided into two groups according to whether quality management (QM) was considered. For every FM, occurrence (O), severity (S) and detectability (D) by consensus were evaluated, and the product of O, S and D yielded the risk priority number (RPN), which permitted the ranking of the FMs. Finally, FTA was used to determine the root factors contributing to the riskiest failure modes. Results The IMRT plan process consisted of 10 major sub-processes and 33 steps, which amounted to 47 failure modes. For the group without quality management, the RPN of FMs was between 13.2-271.8, 27 of which had RPN≥80, and 18 FMs had S≥8. For the group with quality management, the RPN of FMs was between 11.2-158.4, 11 of which had RPN≥80. The difference of RPN between the two groups was statistically significant (RPN of the group without QM=101.17±66.34, RPN of the group with QM=59.54±35.64, t=8.501, P<0.05). Finally, FTA was used to determine the root factors contributing to the FMs, i. e., prescription dose definition and importing images. Conclusions The FMEA and FTA methods are operable and practical, which can systematically and comprehensively analyze the potential failures and risks existing in the process of IMRT plan. And the FMEA and FTA can contribute to establish and optimize the quality management program in radiotherapy. Key words: Intensity modulated radiotherapy; Failure modes and effects analysis; Failure tree analysis; Quality management

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故障模式及影响分析和故障树分析在IMRT计划中的应用

目的参考AAPM第100任务组报告，探讨故障模式与影响分析(FMEA)与故障树分析(FTA)相结合的IMRT计划流程，建立并优化质量。方法多学科团队利用Eclipse TPS详细绘制IMRT计划的过程图。团队评估了每个工艺步骤的潜在失效模式(FMs)。根据是否考虑质量管理(QM)将评价分为两组。对每一种疾病进行发生率(O)、严重程度(S)和可检测性(D)的一致评价，O、S和D的乘积得到风险优先级数(RPN)，从而对疾病进行排序。最后，利用自由贸易区确定导致最危险失效模式的根本因素。结果IMRT计划过程包括10个主要子过程和33个步骤，共47种失效模式。未进行质量管理的FMs的RPN在13.2 ~ 271.8之间，其中RPN≥80的有27家，S≥8的有18家。质量管理组FMs的RPN在11.2 ~ 158.4之间，其中RPN≥80的有11个。两组RPN差异有统计学意义(无QM组RPN =101.17±66.34，有QM组RPN =59.54±35.64,t=8.501, P<0.05)。最后，利用FTA确定影响FMs的根本因素，即处方剂量定义和导入图像。结论FMEA和FTA方法具有可操作性和实用性，可以系统、全面地分析IMRT计划过程中存在的潜在故障和风险。FMEA和FTA有助于建立和优化放疗质量管理程序。关键词:调强放疗;失效模式及影响分析;故障树分析;质量管理

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