The relation between x-ray CT numbers and charged particle stopping powers and its significance for radiotherapy treatment planning
- 1 February 1983
- journal article
- scientific note
- Published by IOP Publishing in Physics in Medicine & Biology
- Vol. 28 (2) , 169-176
- https://doi.org/10.1088/0031-9155/28/2/006
Abstract
The theoretical results for CT number and relative stopping power given appear to be very reliable, except possibly when large components of high Z elements are present. This implies that the calibration curve given could be used to convert measured CT numbers to relative stopping powers for use in radiotherapy treatment planning for charged particles, such as protons, heavy ions and negative pions, particularly in regions where experimental data are not available. As materials which are tissue-equivalent for electrons and x-rays are not tissue-equivalent for pions (Lewis et al., 1982), it may be more reliable to use theoretical results for real tissues, rather than experimental results for the tissue substitutes in common use.Keywords
This publication has 15 references indexed in Scilit:
- X-ray attenuation coefficients of elements and mixturesPublished by Elsevier ,2002
- The implementation of a generalised Batho inhomogeneity correction for radiotherapy planning with direct use of CT numbersPhysics in Medicine & Biology, 1981
- An accurate parametrisation of the X-ray attenuation coefficientPhysics in Medicine & Biology, 1980
- Theoretical and experimental aspects of the energy loss of relativistic heavily ionizing particlesReviews of Modern Physics, 1980
- Treatment planning for heavy ion radiotherapyInternational Journal of Radiation Oncology*Biology*Physics, 1979
- Measurement of stopping power ratios for 60 MeV positive or negative pionsPhysics in Medicine & Biology, 1979
- The direct use of CT numbers in radiotherapy dosage calculations for inhomogeneous mediaPhysics in Medicine & Biology, 1979
- Static pion beam treatment planning of deep seated tumors using computerized tomographic scansInternational Journal of Radiation Oncology*Biology*Physics, 1979
- Tissue substitutes in experimental radiation physicsMedical Physics, 1978
- An interactive digital computer system for radiotherapy treatment planningThe British Journal of Radiology, 1971