Applications of synchrotron X-rays to radiotherapy

Radiotherapy is among the most useful treatments of cancer. Penetrating radiation (ionizing particles or bremsstrahlung photons) is aimed toward the tumor-bearing target, gradually delivering as high radiation to it as is usefully suppressive of tumor growth, yet tolerated by normal vital tissues in...

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Published inNuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Vol. 548; no. 1; pp. 17 - 22
Main Authors Blattmann, H., Gebbers, J.-O., Bräuer-Krisch, E., Bravin, A., Le Duc, G., Burkard, W., Di Michiel, M., Djonov, V., Slatkin, D.N., Stepanek, J., Laissue, J.A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 11.08.2005
Subjects
CAM
Microbeam radiation therapy
Photon activation therapy
Radiosurgery
Synchrotron X-rays
Tomotherapy
87.53
87.50
Microbeam radiation therapy
Radiosurgery
Tomotherapy
Synchrotron X-rays
87.59
87.56
CAM
Photon activation therapy
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Summary:Radiotherapy is among the most useful treatments of cancer. Penetrating radiation (ionizing particles or bremsstrahlung photons) is aimed toward the tumor-bearing target, gradually delivering as high radiation to it as is usefully suppressive of tumor growth, yet tolerated by normal vital tissues inevitably irradiated with the tumor. The high collimation and dose rate of synchrotron X-ray beams, even when monochromatized, favor radiotherapy. Photon activation therapy, tomotherapy, microbeam radiation therapy, and radiosurgery mediated by synchrotron wigglers are conceptually promising for difficult tumors. Radiotherapy of malignant brain tumors in rats has been encouraging, but suitable beam lines exist at only a few research facilities and much basic work must be done before the promise of synchrotron-based radiotherapy can be realized clinically.
ISSN:0168-9002
1872-9576
DOI:10.1016/j.nima.2005.03.060