Boundary-enhancement in propagation-based x-ray phase-contrast tomosynthesis improves depth position characterization
Physics in Medicine & Biology, 2015•iopscience.iop.org
Propagation-based x-ray phase-contrast (PB XPC) tomosynthesis combines the concepts of
tomosynthesis and XPC imaging to realize the advantages of both for biological imaging
applications. Tomosynthesis permits reductions in acquisition times compared with full-view
tomography, while XPC imaging provides the opportunity to resolve weakly absorbing
structures. In this note, an investigation of the depth resolving properties of PB XPC
tomosynthesis is conducted. The results demonstrate that in-plane structures display strong …
tomosynthesis and XPC imaging to realize the advantages of both for biological imaging
applications. Tomosynthesis permits reductions in acquisition times compared with full-view
tomography, while XPC imaging provides the opportunity to resolve weakly absorbing
structures. In this note, an investigation of the depth resolving properties of PB XPC
tomosynthesis is conducted. The results demonstrate that in-plane structures display strong …
Abstract
Propagation-based x-ray phase-contrast (PB XPC) tomosynthesis combines the concepts of tomosynthesis and XPC imaging to realize the advantages of both for biological imaging applications. Tomosynthesis permits reductions in acquisition times compared with full-view tomography, while XPC imaging provides the opportunity to resolve weakly absorbing structures. In this note, an investigation of the depth resolving properties of PB XPC tomosynthesis is conducted. The results demonstrate that in-plane structures display strong boundary-enhancement while out-of-plane structures do not. This effect can facilitate the identification of in-plane structures in PB XPC tomosynthesis that could normally not be distinguished from out-of-plane structures in absorption-based tomosynthesis.
iopscience.iop.org
以上显示的是最相近的搜索结果。 查看全部搜索结果