Pulsed radiobiology with laser-driven plasma accelerators

被引:0
作者
Giulietti, Antonio [1 ]
Andreassi, Maria Grazia [2 ]
Greco, Carlo [3 ]
机构
[1] CNR, Ist Nazl Ott, Sez Adriano Gozzini, Area Ric Pisa, Via Moruzzi 1, I-56124 Pisa, Italy
[2] CNR, Ist Fisiol Clin, Pisa, Italy
[3] Univ Paris, Dept Oncol, Pisa, Italy
来源
LASER ACCELERATION OF ELECTRONS, PROTONS, AND IONS AND MEDICAL APPLICATIONS OF LASER-GENERATED SECONDARY SOURCES OF RADIATION AND PARTICLES | 2011年 / 8079卷
关键词
D O I
10.1117/12.888736
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Recently, a high efficiency regime of acceleration in laser plasmas has been discovered, allowing table top equipment to deliver doses of interest for radiotherapy with electron bunches of suitable kinetic energy. In view of an R&D program aimed to the realization of an innovative class of accelerators for medical uses, a radiobiological validation is needed. At the present time, the biological effects of electron bunches from the laser-driven electron accelerator are largely unknown. In radiobiology and radiotherapy, it is known that the early spatial distribution of energy deposition following ionizing radiation interactions with DNA molecule is crucial for the prediction of damages at cellular or tissue levels and during the clinical responses to this irradiation. The purpose of the present study is to evaluate the radio-biological effects obtained with electron bunches from a laser-driven electron accelerator compared with bunches coming from a IORT-dedicated medical Radio-frequency based linac's on human cells by the cytokinesis block micronucleus assay (CBMN). To this purpose a multidisciplinary team including radiotherapists, biologists, medical physicists, laser and plasma physicists is working at CNR Campus and University of Pisa. Dose on samples is delivered alternatively by the "laser-linac" operating at ILIL lab of Istituto Nazionale di Ottica and an RF-linac operating for IORT at Pisa S. Chiara Hospital. Experimental data are analyzed on the basis of suitable radiobiological models as well as with numerical simulation based on Monte Carlo codes. Possible collective effects are also considered in the case of ultrashort, ultradense bunches of ionizing radiation.
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页数:9
相关论文
共 8 条
[1]   Acute chromosomal DNA damage in human lymphocytes after radiation exposure in invasive cardiovascular procedures [J].
Andreassi, Maria Grazia ;
Cioppa, Angelo ;
Manfredi, Samantha ;
Palmieri, Cataldo ;
Botto, Nicoletta ;
Picano, Eugenio .
EUROPEAN HEART JOURNAL, 2007, 28 (18) :2195-2199
[2]  
GAMUCCI A, 2009, Patent No. 094254356
[3]   Intense γ-ray source in the giant-dipole-resonance range driven by 10-TW laser pulses [J].
Giulietti, A. ;
Bourgeois, N. ;
Ceccotti, T. ;
Davoine, X. ;
Dobosz, S. ;
D'Oliveira, P. ;
Galimberti, M. ;
Galy, J. ;
Gamucci, A. ;
Giulietti, D. ;
Gizzi, L. A. ;
Hamilton, D. J. ;
Lefebvre, E. ;
Labate, L. ;
Marques, J. R. ;
Monot, P. ;
Popescu, H. ;
Reau, F. ;
Sarri, G. ;
Tomassini, P. ;
Martin, P. .
PHYSICAL REVIEW LETTERS, 2008, 101 (10)
[4]  
GIULIETTI A, 2010, SAPERE, V1067, P26
[5]  
LABATE L, 2011, GEANT4 SIMULATIONS P
[6]   The fluorometric microculture cytotoxicity assay [J].
Lindhagen, Elin ;
Nygren, Peter ;
Larsson, Rolf .
NATURE PROTOCOLS, 2008, 3 (08) :1364-1369
[7]   Ultra-short electron beams based spatio-temporal radiation biology and radiotherapy [J].
Malka, Victor ;
Faure, Jerome ;
Gauduel, Yann A. .
MUTATION RESEARCH-REVIEWS IN MUTATION RESEARCH, 2010, 704 (1-3) :142-151
[8]   BIOLOGICAL CHEMISTRY Beyond radical thinking [J].
Sanche, Leon .
NATURE, 2009, 461 (7262) :358-359