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Inactivation of human normal and tumour cells irradiated with low energy protons
- Source :
- Scopus-Elsevier
- Publication Year :
- 2000
- Publisher :
- Taylor & Francis Limited:Rankine Road, Basingstoke RG24 8PR United Kingdom:011 44 1256 813035, EMAIL: madeline.sims@tandf.co.uk, info@tandf.co.uk, INTERNET: http://www.tandf.co.uk, Fax: 011 44 1256 330245, 2000.
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Abstract
- To analyse the cell inactivation frequencies induced by low energy protons in human cells with different sensitivity to photon radiation.Four human cell lines with various sensitivities to photon irradiation were used: the SCC25 and SQ20B derived from human epithelium tumours of the tongue and larynx, respectively, and the normal lines M/10, derived from human mammary epithelium, and HF19 derived from a lung fibroblast. The cells were irradiated with y-rays and proton beams with linear energy transfer (LET) from 7 to 33 keV/microm. Clonogenic survival was assessed.Survival curves are reported for each cell line following irradiation with gamma-rays and with various proton LETs. The surviving fraction after 2 Gy of gamma-rays was 0.72 for SQ20B cells, and 0.28-0.35 for the other cell lines. The maximum LET proton effectiveness was generally greater than that of gamma-rays. In particular there was a marked increase in beam effectiveness with increasing LET for the most resistant cells (SQ20B) whose 2 Gy-survival varied from 0.72 with gamma-radiation down to 0.37 with 30 keV/microm protons. The relative biological effectiveness (RBE(2 Gy gamma)) with the 30 keV/microm beam, evaluated as the ratio of 2 Gy to the proton dose producing the same inactivation level as that given by 2 Gy of gamma-rays, was 3.2, 1.8, 1.3 and 0.8 for SQ20B, M/10, SCC25, and HF19, respectively.RBE for inactivation with high-LET protons increased with the cellular radioresistance to gamma-rays. The cell line with the greatest resistance to gamma-rays was the most responsive to the highest LET proton beam. A similar trend has also been found in studies reported in the literature with He, C, N ions with LET in the range 20-125 keV/microm on human tumour cell lines.
- Subjects :
- Proton
Cell Survival
Linear energy transfer
Radiation Tolerance
Cell Line
Neoplasms
Proton Therapy
Tumor Cells, Cultured
medicine
Relative biological effectiveness
Humans
Radiology, Nuclear Medicine and imaging
Irradiation
Radiosensitivity
Fibroblast
Clonogenic assay
Radiological and Ultrasound Technology
business.industry
Chemistry
Dose-Response Relationship, Radiation
medicine.anatomical_structure
Gamma Rays
Cell culture
Biophysics
Protons
Nuclear medicine
business
Relative Biological Effectiveness
Subjects
Details
- Database :
- OpenAIRE
- Journal :
- Scopus-Elsevier
- Accession number :
- edsair.doi.dedup.....3baf715ff85ce622607bc4e9e90e1119