As all methods for in-vivo dosimetry require special efforts many physicists are often discouraged in verifying the middle dose in a patient along the beam central axis. This work reports a practical method for the determination of the middle dose value, Dm, on the central beam axis, using a signal St, obtained by a small thimble ion-chamber positioned at the center of the electronic portal imaging device, and irradiated by the x-ray beam transmitted through the patient. The use of a stable ion-chamber reduces many of the disadvantages associated to the use of diodes as their periodic recalibration and time consuming positioning. The method makes use of a set of correlation functions obtained by the St and Dm ratios, determined by irradiating a water-equivalent phantom with 6MV, 10 MV and 15 MV x-ray beams. Several tests were carried out in phantoms with asymmetric inhomogeneities. The method here proposed is based on the determination of the water-equivalent thickness of the patient, along the beam central axis, by the treatment planning system that makes use of the electron densities obtained by a computer tomography scanner, that works with calibrated Hounsfield numbers. This way, it is therefore possible to compare the dose, Dm,TPS, obtained by a treatment planning system, with the in-vivo dose Dm value, both defined at density middle point (identified along the beam central axis, where the thick material, in terms of g cm-2, above and below, is the same). The method has been applied for the in-vivo dosimetry of 30 patients, treated with conformed beams for pelvic tumor, checking: anterior-posterior or posterior-anterior irradiations and lateral-lateral irradiations. For every checked field at least five measurements were carried out. Applying a correct quality assurance program based on the tests of the patient set-up, machine settings and calculations, results showed that the method is able to verify agreements between the dose Dm,TPS and the in-vivo dose value Dm, within 4% for 95% of the 240 measurements carried out in-vivo.

Piermattei, A., Grimaldi, L., D'Onofrio, G., Cilla, S., Viola, P., Craus, M., Fidanzio, A., Azario, L., Deodato, F., Macchia, G., Morganti, A. G., In Vivo Portal Dosimetry by an Ionization Chamber, <<PHYSICA MEDICA>>, 2006; (IV): 143-152 [http://hdl.handle.net/10807/2560]

In Vivo Portal Dosimetry by an Ionization Chamber

Piermattei, Angelo;Grimaldi, Luca;D'Onofrio, Guido;Cilla, Savino;Fidanzio, Andrea;Azario, Luigi;Deodato, Francesco;Macchia, Gabriella;Morganti, Alessio Giuseppe
2005

Abstract

As all methods for in-vivo dosimetry require special efforts many physicists are often discouraged in verifying the middle dose in a patient along the beam central axis. This work reports a practical method for the determination of the middle dose value, Dm, on the central beam axis, using a signal St, obtained by a small thimble ion-chamber positioned at the center of the electronic portal imaging device, and irradiated by the x-ray beam transmitted through the patient. The use of a stable ion-chamber reduces many of the disadvantages associated to the use of diodes as their periodic recalibration and time consuming positioning. The method makes use of a set of correlation functions obtained by the St and Dm ratios, determined by irradiating a water-equivalent phantom with 6MV, 10 MV and 15 MV x-ray beams. Several tests were carried out in phantoms with asymmetric inhomogeneities. The method here proposed is based on the determination of the water-equivalent thickness of the patient, along the beam central axis, by the treatment planning system that makes use of the electron densities obtained by a computer tomography scanner, that works with calibrated Hounsfield numbers. This way, it is therefore possible to compare the dose, Dm,TPS, obtained by a treatment planning system, with the in-vivo dose Dm value, both defined at density middle point (identified along the beam central axis, where the thick material, in terms of g cm-2, above and below, is the same). The method has been applied for the in-vivo dosimetry of 30 patients, treated with conformed beams for pelvic tumor, checking: anterior-posterior or posterior-anterior irradiations and lateral-lateral irradiations. For every checked field at least five measurements were carried out. Applying a correct quality assurance program based on the tests of the patient set-up, machine settings and calculations, results showed that the method is able to verify agreements between the dose Dm,TPS and the in-vivo dose value Dm, within 4% for 95% of the 240 measurements carried out in-vivo.
2005
Inglese
Piermattei, A., Grimaldi, L., D'Onofrio, G., Cilla, S., Viola, P., Craus, M., Fidanzio, A., Azario, L., Deodato, F., Macchia, G., Morganti, A. G., In Vivo Portal Dosimetry by an Ionization Chamber, <<PHYSICA MEDICA>>, 2006; (IV): 143-152 [http://hdl.handle.net/10807/2560]
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/2560
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? ND
social impact