Photoneutron Source In hospital


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Photoneutron Source In HOspital

  • Photoneutron Source In HOspital


































Possibility of full time use of the LINAC overcoming the restriction imposed by radiotherapy departments for the use of clinical accelerators:

  • Possibility of full time use of the LINAC overcoming the restriction imposed by radiotherapy departments for the use of clinical accelerators:



e-Linac Elekta 25 MeV max dose rate 400 UM/min

  • e-Linac Elekta 25 MeV max dose rate 400 UM/min

  • PhoNeS Bianco

  • (weight ~ 400 kg – assembling time ~ 1.5 ore)

  • Thermal neutron fluence rate

  • ~ 1E7 n cm-2s-1

  • Biologiacl samples: primary lung carcinoma











ASU San Luigi Gonzaga Orbassano (TO)

  • ASU San Luigi Gonzaga Orbassano (TO)







Institutes

  • Institutes

  • INFN Torino

  • INFN Trieste

  • Università degli Studi di Torino

  • Politecnico di Torino

  • Università degli Studi di Trieste

  • Università dell’ Insubria di Como

  • Università degli Studi di Pavia

  • Universita’ FedericoII di Napoli

  • Universita’ La Cattolica di Roma



Richieste finanziarie locali a Ts (kE)

  • Richieste finanziarie locali a Ts (kE)

  • MI:9.0 ME:4.0 MC:6.0 TR:2.0 CA:8.0 TOT:29

  • Richieste servizi: Officina Meccanica :S.Reia (2m/u), D.Iugovaz (1m/u); Laboratorio Elettronica e Rivelatori : M.Bari (1m/u)





“A novel approach to BNCT with conventional radiotherapy accelerators.” Nuclear Instruments and Methods in Physics, Bevilacqua, R., et al., 2007. PhoNeS: Research A 572, 231-232.

  • “A novel approach to BNCT with conventional radiotherapy accelerators.” Nuclear Instruments and Methods in Physics, Bevilacqua, R., et al., 2007. PhoNeS: Research A 572, 231-232.

  • “Comparison of different MC techniques to evaluate BNCT dose profiles in phantom exposed to various neutron fields.” Durisi et al. 2009 Radiation Protection Dosimetry in press.

  • Monte Carlo simulation of the photoneutron field in linac radiotherapy treatments with different collimation systems. Zanini, A., et al., 2004. Physics in Medicine and Biology, 49, 1-12.

  • “Design of an epithermal column for BNCT based on DD fusion neutron facility”. Durisi E. et al. (2007). Nuclear Instruments and Methods in Physics, vol. 574; p. 363-369, ISSN: 0168-9002

  • “DoseMeasurements in the Thermal Column of the TAPIRO reactor.” Rosi G. et al. (2004). RADIATION PROTECTION DOSIMETRY, vol. 110; p. 651-654.

  • “A Photoneutron Source for In-Hospital BNCT Treatment: feasibility study”. 12th International Congress on Neutron Capture Therapy 9-13 October 2006 Takamatsu, Kagawa, Japan.

  • “A novel approach to the study of 10B uptake in human lung by ex-vivo BPA perfusion”. 13th International Congress on Neutron Capture Therapy, 2-7 November 2008 , Florence, Italy.

  • "Characterization of a Thermal Cavity in the PhoNeS photo-neutron converter for BNCT research" - 13th International Congress on Neutron Capture Therapy 2-7 November 2008 Florence, Italy.

  • “CR-39 neutron imaging of biological samples at clinical linac’s”. - 13th International Congress on Neutron Capture Therapy 2-7 November 2008 Florence, Italy.

  • “Comparison of different MC techniques to evaluate BNCT dose profiles in phantom exposed to various neutron fields.” 13th International Congress on Neutron Capture Therapy, 2-7 November 2008 , Florence, Italy.

  • “ 10B concentration analysis in primary human lung adenocarcinoma by Thermal Cavity of PhoNeS photo-neutron converter”. Young Researchers BNCT Meeting, 29 September – 2 October 2009, Mainz, Germany

  • “ICP-MS analysis of 10B, in human cell lines and tissues, as support to the new Boron Neutron Autoradiography (PhotoNeutronSource project)”. Young Researchers BNCT Meeting, 29 September – 2 October 2009, Mainz, Germany




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