【 摘 要 】

Background

This study seeks to increase clinical operational efficiency and accelerator beam consistency by retrospectively investigating the application of statistical process control (SPC) to linear accelerator beam steering parameters to determine the utility of such a methodology in detecting changes prior to equipment failure (interlocks actuated).

Methods

Steering coil currents (SCC) for the transverse and radial planes are set such that a reproducibly useful photon or electron beam is available. SCC are sampled and stored in the control console computer each day during the morning warm-up. The transverse and radial - positioning and angle SCC for photon beam energies were evaluated using average and range (Xbar-R) process control charts (PCC). The weekly average and range values (subgroup n = 5) for each steering coil were used to develop the PCC. SCC from September 2009 (annual calibration) until two weeks following a beam steering failure in June 2010 were evaluated. PCC limits were calculated using the first twenty subgroups. Appropriate action limits were developed using conventional SPC guidelines.

Results

PCC high-alarm action limit was set at 6 standard deviations from the mean. A value exceeding this limit would require beam scanning and evaluation by the physicist and engineer. Two low alarms were used to indicate negative trends. Alarms received following establishment of limits (week 20) are indicative of a non-random cause for deviation (Xbar chart) and/or an uncontrolled process (R chart). Transverse angle SCC for 6 MV and 15 MV indicated a high-alarm 90 and 108 days prior to equipment failure respectively. A downward trend in this parameter continued, with high-alarm, until failure. Transverse position and radial angle SCC for 6 and 15 MV indicated low-alarms starting as early as 124 and 116 days prior to failure, respectively.

Conclusion

Radiotherapy clinical efficiency and accelerator beam consistency may be improved by instituting SPC methods to monitor the beam steering process and detect abnormal changes prior to equipment failure.

PACS numbers: 87.55n, 87.55qr, 87.56bd

【 授权许可】

   
2011 Able et al; licensee BioMed Central Ltd.

【 预 览 】

附件列表

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【 图 表 】

【 参考文献 】

• [1]NCRP: Dosimetry of x-ray and gamma-ray beams for radiation therapy in the energy range 10 kev to 50 Mev. 1981, 109. Report No. 69. Bethesda, MD: National Council on Radiation Protection and Measurements
• [2]Van Dyk J: The modern technology of radiation oncology. Madison, WI, USA: Medical Physics Publishing; 1999:1073.
• [3]Stapenhurst T: Mastering statistical process control. Jordan Hill, Oxford, UK: Butterworth-Heinemann; 2005.
• [4]Oakland JS: Statistical process control. Jordan Hill, Oxford, UK: Butterworth-Heinemann; 2008.
• [5]Burr IW: The effect of non-normality on constants for Xbar and R Charts. Industrial Quality Control 1996, 565-569.
• [6]Manual on quality control of materials American Society for Testing and Materials;Philadelphia, PA, USA; 1951.
• [7]Wheeler DJ: Normality and the process control chart. Knoxville. TN, USA: SPC Press; 2000.
• [8]Neubauer DV: Manual on Presentation of data and control chart analysis. West Conshohocken, PA, USA: ASTM International; 2010.
• [9]Wheeler DJ, Chambers DS: Understanding statistical process control. Knoxville, TN, USA: SPC Press; 1992.
• [10]Able C, Bright M: Quality control of external beam treatment delivery: mechanical parameters [abstract]. Med Phys 2009, 36:2428.
• [11]Able CM, Bright M, Frizzell B: Quality Control of High-Dose-Rate Brachytherapy: Treatment Delivery Analysis Using Statistical Process Control [abstract]. Brachytherapy 2010, 9:S64-S65.
• [12]Kahn F: The Physics of Radiation Therapy. Philadelphia, PA, USA: Lippincott Williams & Wilkins; 2003.
• [13]Varian Medical Systems High Energy Clinac Customer Acceptance Procedure, Revision E. Milpitas, CA, USA; 2006.
• [14]Klein E, Hanley J, Bayouth J, Yin F, Simon W, Dresser S, Serago C, Aguirre F, Ma L, Arjomandy B, Liu C, Sandin C, Holmes T: Task Group 142: Quality assurance of medical accelerators. Med Phys 36(9):4197-4212.