Your search keyword '"Sabini, M. G."' showing total 4 results

1. Cellular and molecular effects of protons: apoptosis induction and potential implications for cancer therapy.

Author

Di Pietro C, Piro S, Tabbì G, Ragusa M, Di Pietro V, Zimmitti V, Cuda F, Anello M, Consoli U, Salinaro ET, Caruso M, Vancheri C, Crimi N, Sabini MG, Cirrone GA, Raffaele L, Privitera G, Pulvirenti A, Giugno R, Ferro A, Cuttone G, Lo Nigro S, Purrello R, Purrello F, and Purrello M

Subjects

Apoptosis genetics, Base Sequence, Cell Cycle radiation effects, Cell Line, Tumor, DNA Damage, DNA Primers genetics, Electron Spin Resonance Spectroscopy, Female, Flow Cytometry, Humans, Male, Necrosis, Neoplasms genetics, Neoplasms metabolism, Neoplasms pathology, Photons therapeutic use, RNA, Messenger genetics, RNA, Neoplasm genetics, Reactive Oxygen Species metabolism, Reverse Transcriptase Polymerase Chain Reaction, Apoptosis radiation effects, Neoplasms radiotherapy, Proton Therapy

Abstract

Due to their ballistic precision, apoptosis induction by protons could be a strategy to specifically eliminate neoplastic cells. To characterize the cellular and molecular effects of these hadrons, we performed dose-response and time-course experiments by exposing different cell lines (PC3, Ca301D, MCF7) to increasing doses of protons and examining them with FACS, RT-PCR, and electron spin resonance (ESR). Irradiation with a dose of 10 Gy of a 26,7 Mev proton beam altered cell structures such as membranes, caused DNA double strand breaks, and significantly increased intracellular levels of hydroxyl ions, are active oxygen species (ROS). This modified the transcriptome of irradiated cells, activated the mitochondrial (intrinsic) pathway of apoptosis, and resulted in cycle arrest at the G2/M boundary. The number of necrotic cells within the irradiated cell population did not significantly increase with respect to the controls. The effects of irradiation with 20 Gy were qualitatively as well as quantitatively similar, but exposure to 40 Gy caused massive necrosis. Similar experiments with photons demonstrated that they induce apoptosis in a significantly lower number of cells and in a temporally delayed manner. These data advance our knowledge on the cellular and molecular effects of proton irradiation and could be useful for improving current hadrontherapy protocols.

Published

2006

2. Radiochromic film dosimetry of a low energy proton beam.

Author

Piermattei A, Miceli R, Azario L, Fidanzio A, delle Canne S, De Angelis C, Onori S, Pacilio M, Petetti E, Raffaele L, and Sabini MG

Subjects

Calibration, Dose-Response Relationship, Radiation, Film Dosimetry instrumentation, Ions, Models, Statistical, Phantoms, Imaging, Water, Film Dosimetry methods, Proton Therapy

Abstract

In this work some dosimetric characteristics of MD-55-2 GafChromic films were studied in a low energy proton beam (21.5 MeV) directly in a water phantom. The nonlinearity of the optical density was quantified by a factor P(lin). A correction factor P(en), that accounts for optical density dependence on the energy, was empirically determined. The effects of detector thickness in depth dose measurements and of the film orientation with respect to beam direction were investigated. The results show that the MD-55-2 films provide dose measurements with the films positioned perpendicularly to the proton beam. A dosimetric formalizm is proposed to determine the dose to water at depth d, with films oriented perpendicularly to the beam axis. This formalism uses a calibration factor of the radiochromic film determined directly on the proton beam at a reference depth in water, and the P(lin) factor, that takes into account the nonlinearity of the calibration curve and the P(en) factor that, in turn takes into account the change of proton beam energy in water. The MD-55-2 films with their high spatial resolution and the quasiwater equivalent material are attractive, positioned perpendicularly along the beam axis, for the absolute dose determination of very small beam sizes and modulated proton beams.

Published

2000

3. STRIP IONIZATION CHAMBER AS BEAM MONITOR IN THE PROTON THERAPY EYE TREATMENT.

Author

MARCHETTO, F., CIRIO, R., GARELLA, M. A., GIORDANENGO, S., BORIANO, A., GIVEHCHI, N., LA ROSA, A., PERONI, C., DONETTI, M., BOURHALEB, F., PITTA', G., CIRRONE, G. A. P., CUTTONE, G., RAFFAELE, L., SABINI, M. G., and VALASTRO, L.

Subjects

IONIZATION chambers, PROTON therapy, PHOTON beams, ION beams, SUPERCONDUCTING composites

Published

2006

4. Use of 70 MeV proton beam for medical applications at INFN-LNS: CATANA project.

Author

Sabini, M. G., Cirrone, G. A. P., Tonghi, L. Barone, Bartolotta, A., Brai, M., Cuttone, G., Nigro, S. Lo, Marano, F., Nicoletti, G. A., Privitera, G., Raffaele, L., Reibaldi, A., Romeo, N., Rovelli, A., Salamone, V., and Teri, G.

Subjects

*SCIENCE projects, *TUMORS, *PROTON therapy

Abstract

The project CATANA (Centro di Adro Terapia ed Applicazioni Nucleari Avanzate) is a collaboration between the INFN-Laboratori Nazionali del Sud (LNS), Physics Department, Ophthalmology Institute and Radiology Institute of the Catania University and CSFNSM Catania. The main goal of CATANA is the study and the application of protontherapy for the treatment of shallow tumors (4 cm max) like uveal melanomas and subfoveal macular degenerations. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2000