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Literature DB >> 6771511

Revision of tissue-maximum ratio and scatter-maximum ratio concepts for cobalt 60 and higher energy x-ray beams.

F M Khan, W Sewchand, J Lee, J F Williamson.

Abstract

The concept of tissue-maximum ratios (TMR) as a basis of dose computations has posed problems when applied to a whole range of clinically used megavoltage beams. Another problem is the definition of scatter-maximum ratio (SMR) which assumes a value of zero at the depth of maximum dose. This paper describes new methods of measuring collimator and phantom scatter correction factors. The definitions of TMR and SMR are modified in order to compute phantom scatter at any depth, including depth of maximum dose. The revised concept is basic and general enough that it can be applied to x-ray beams of any energy fields of any shape and isocentric as well as non-isocentric modes of treatment.

Entities: Chemical

Mesh：

Substances：
Cobalt Radioisotopes

Year: 1980 PMID： 6771511 DOI： 10.1118/1.594648

Source DB: PubMed Journal: Med Phys ISSN： 0094-2405 Impact factor: 4.071

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Cited

6 in total

1. A convolution/superposition method using primary and scatter dose kernels formed for energy bins of X-ray spectra reconstructed as a function of off-axis distance: a theoretical study on 10-MV X-ray dose calculations in thorax-like phantoms.

Authors: Akira Iwasaki; Shigenobu Kimura; Kohji Sutoh; Kazuo Kamimura; Makoto Sasamori; Fumio Komai; Morio Seino; Singo Terashima; Mamoru Kubota; Junichi Hirota; Yoichiro Hosokawa
Journal: Radiol Phys Technol Date: 2011-06-15

2. Measurement and comparison of head scatter factor for 7 MV unflattened (FFF) and 6 MV flattened photon beam using indigenously designed columnar mini phantom.

Authors: Sigamani Ashokkumar; Arunai Nambiraj; Sujit Nath Sinha; Girigesh Yadav; Kothanda Raman; Manindra Bhushan; Rajesh Thiyagarajan
Journal: Rep Pract Oncol Radiother Date: 2015-03-01

6. Comparison of Head Scatter Factor for 6MV and 10MV flattened (FB) and Unflattened (FFF) Photon Beam using indigenously Designed Columnar Mini Phantom.

Authors: Sigamani Ashokkumar; N Arunai Nambi Raj; Sujit Nath Sinha; Girigesh Yadav; Rajesh Thiyagarajan; Kothanda Raman; Manindra Bhushan Mishra
Journal: J Med Phys Date: 2014-07

6 in total

Revision of tissue-maximum ratio and scatter-maximum ratio concepts for cobalt 60 and higher energy x-ray beams.

1. A convolution/superposition method using primary and scatter dose kernels formed for energy bins of X-ray spectra reconstructed as a function of off-axis distance: a theoretical study on 10-MV X-ray dose calculations in thorax-like phantoms.

2. Measurement and comparison of head scatter factor for 7 MV unflattened (FFF) and 6 MV flattened photon beam using indigenously designed columnar mini phantom.

3. Quantitative analysis of in-air output ratio.

4. Validation of the Pinnacle³ photon convolution-superposition algorithm applied to fast neutron beams.

5. An Analytical Method to Calculate Phantom Scatter Factor for Photon Beam Accelerators.

6. Comparison of Head Scatter Factor for 6MV and 10MV flattened (FB) and Unflattened (FFF) Photon Beam using indigenously Designed Columnar Mini Phantom.