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Systematic in vivo dosimetry for quality assurance using diodes. Part 1: Experiences and results of the implementation of entrance dose measurements

Published online by Cambridge University Press:  31 January 2005

R. Appleyard
Affiliation:
Sheffield Hallam University
K. Ball
Affiliation:
Addenbrookes Hospital, Cambridge
F.E. Hughes
Affiliation:
Norfolk and Norwich University Hospital, UK
W. Kilby
Affiliation:
Norfolk and Norwich University Hospital, UK
S. Lassen
Affiliation:
Finsen Centre, Copenhagen, Denmark
R. Nicholls
Affiliation:
Norfolk and Norwich University Hospital, UK
V. Rabett
Affiliation:
Norfolk and Norwich University Hospital, UK
J. Sage
Affiliation:
Clatterbridge Centre for Oncology, Wirral, UK
M. Smith
Affiliation:
Norfolk and Norwich University Hospital, UK
E. Thomson
Affiliation:
Accuray Incorporated, Sunnyvale, USA

Abstract

Purpose: This paper describes our experiences of implementing systematic in vivo dosimetry at the Norfolk and Norwich Hospital and reviews the results of 2,254 entrance dose measurements made over a 17-month period.

Methods and materials: Entrance dose measurements using p-type diodes were performed on all new planned patients. The calibration procedure and correction factors applied are described. A 4% tolerance was applied.

Results: The results of all measurements indicated a small mean deviation from expected entrance dose of 10.77% and a standard deviation of 2.85%. 16.7% of all measurements exceeded the 4% tolerance with 9.2% exceeding a 5% level. The estimated overall errors for 578 treatments were calculated using the weighted averages of all beams. A narrower SD of 1.96% combined with only 4.8% of all treatments exceeding a 4% tolerance show that large deviations from a single field do not always translate into significant overall errors.

Conclusions: Global dosimetric accuracy was within clinically acceptable limits and variations between measured and expected doses were mainly attributable to factors affecting diode reading. A number of errors in calculating deviations and the inconsistent application of the protocol suggest the need for interfacing the diode system with software control.

Type
Original Article
Copyright
© 2004 Cambridge University Press

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