X-ray coherent scattering form factors of tissues, water and plastics using energy dispersion

X-ray coherent scattering form factors of tissues, water and plastics using energy dispersion

A key requirement for the development of the field of medical x-ray scatter imaging is accurate characterization of the differential scattering cross sections of tissues and phantom materials. The coherent x-ray scattering form factors of five tissues (fat, muscle, liver, kidney, and bone) obtained...

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Bibliographic Details
Published in:Physics in medicine & biology 2011-07, Vol.56 (14), p.4377-4397
Main Authors: King, B W, Landheer, K A, Johns, P C
Format: Article
Language:eng
Subjects:
Animals
Cattle
Plastics
Scattering, Radiation
Water
X-Rays
Online Access:Get full text
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Summary:A key requirement for the development of the field of medical x-ray scatter imaging is accurate characterization of the differential scattering cross sections of tissues and phantom materials. The coherent x-ray scattering form factors of five tissues (fat, muscle, liver, kidney, and bone) obtained from butcher shops, four plastics (polyethylene, polystyrene, lexan (polycarbonate), nylon), and water have been measured using an energy-dispersive technique. The energy-dispersive technique has several improvements over traditional diffractometer measurements. Most notably, the form factor is measured on an absolute scale with no need for scaling factors. Form factors are reported in terms of the quantity x = λ(-1)sin (θ/2) over the range 0.363-9.25 nm(-1). The coherent form factors of muscle, liver, and kidney resemble those of water, while fat has a narrower peak at lower x, and bone is more structured. The linear attenuation coefficients of the ten materials have also been measured over the range 30-110 keV and parameterized using the dual-material approach with the basis functions being the linear attenuation coefficients of polymethylmethacrylate and aluminum.
ISSN:0031-9155
1361-6560