Feasibility of using a dose-area product ratio as beam quality specifier for photon beams with small field sizes

Maria Pimpinella; Claudio Caporali; Antonio Stefano Guerra; Luca Silvi; Vanessa De Coste; Assunta Petrucci; Frank Delaunay; Stéphane Dufreneix; Jean Gouriou; Aimé Ostrowsky; Benjamin Rapp; Jean-Marc Bordy; Josiane Daures; Maïwenn Le Roy; Line Sommier; Didier Vermesse

doi:10.1016/j.ejmp.2017.12.012

Feasibility of using a dose-area product ratio as beam quality specifier for photon beams with small field sizes

Phys Med. 2018 Jan:45:106-116. doi: 10.1016/j.ejmp.2017.12.012. Epub 2017 Dec 19.

Authors

Maria Pimpinella¹, Claudio Caporali², Antonio Stefano Guerra², Luca Silvi², Vanessa De Coste², Assunta Petrucci³, Frank Delaunay⁴, Stéphane Dufreneix⁴, Jean Gouriou⁴, Aimé Ostrowsky⁴, Benjamin Rapp⁴, Jean-Marc Bordy⁴, Josiane Daures⁴, Maïwenn Le Roy⁴, Line Sommier⁴, Didier Vermesse⁴

Affiliations

¹ Istituto Nazionale di Metrologia delle Radiazioni Ionizzanti, ENEA-INMRI, I-00123 Roma, Italy. Electronic address: maria.pimpinella@enea.it.
² Istituto Nazionale di Metrologia delle Radiazioni Ionizzanti, ENEA-INMRI, I-00123 Roma, Italy.
³ S. Filippo Neri Hospital, UOSD Fisica Sanitaria, I-00135 Roma, Italy.
⁴ CEA, LIST, Laboratoire National Henri Becquerel (LNE-LNHB), F-91191 Gif-sur-Yvette, France.

PMID: 29472074
DOI: 10.1016/j.ejmp.2017.12.012

Abstract

Purpose: To investigate the feasibility of using the ratio of dose-area product at 20 cm and 10 cm water depths (DAPR_20,10) as a beam quality specifier for radiotherapy photon beams with field diameter below 2 cm.

Methods: Dose-area product was determined as the integral of absorbed dose to water (D_w) over a surface larger than the beam size. 6 MV and 10 MV photon beams with field diameters from 0.75 cm to 2 cm were considered. Monte Carlo (MC) simulations were performed to calculate energy-dependent dosimetric parameters and to study the DAPR_20,10 properties. Aspects relevant to DAPR_20,10 measurement were explored using large-area plane-parallel ionization chambers with different diameters.

Results: DAPR_20,10 was nearly independent of field size in line with the small differences among the corresponding mean beam energies. Both MC and experimental results showed a dependence of DAPR_20,10 on the measurement setup and the surface over which D_w is integrated. For a given setup, DAPR_20,10 values obtained using ionization chambers with different air-cavity diameters agreed with one another within 0.4%, after the application of MC correction factors accounting for effects due to the chamber size. DAPR_20,10 differences among the small field sizes were within 1% and sensitivity to the beam energy resulted similar to that of established beam quality specifiers based on the point measurement of D_w.

Conclusions: For a specific measurement setup and integration area, DAPR_20,10 proved suitable to specify the beam quality of small photon beams for the selection of energy-dependent dosimetric parameters.

Keywords: Beam quality; DAP ratio; Dose-area product; Small photon beams.

MeSH terms

Air
Cobalt Radioisotopes / therapeutic use
Computer Simulation
Monte Carlo Method
Particle Accelerators
Photons / therapeutic use*
Radiometry / methods*
Radiotherapy Dosage*
Uncertainty
Water

Substances

Cobalt Radioisotopes
Water