William Ammon
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View article: Three-dimensional fiber orientation mapping of ex vivo human brain at micrometer resolution
Three-dimensional fiber orientation mapping of ex vivo human brain at micrometer resolution Open
View article: Imaging of developing human brains with ex vivo PSOCT and dMRI
Imaging of developing human brains with ex vivo PSOCT and dMRI Open
The human brain undergoes substantial developmental changes in the first 5 years of life. Particularly in the white matter, myelination of axons occurs near birth and continues at a rapid pace during the first 2 to 3 years. Diffusion MRI (…
View article: Three-dimensional fiber orientation mapping of the human brain at micrometer resolution
Three-dimensional fiber orientation mapping of the human brain at micrometer resolution Open
The accurate measurement of three-dimensional (3D) fiber orientation in the brain is crucial for reconstructing fiber pathways and studying their involvement in neurological diseases. Comprehensive reconstruction of axonal tracts and small…
View article: Imaging of developing human brains with ex vivo PSOCT and dMRI
Imaging of developing human brains with ex vivo PSOCT and dMRI Open
The human brain undergoes substantial developmental changes in the first five years of life. Particularly in the white matter, myelination of axons occurs near birth and continues at a rapid pace during the first 2 to 3 years. Diffusion MR…
View article: Quantitative imaging of three-dimensional fiber orientation in the human brain via two illumination angles using polarization-sensitive optical coherence tomography
Quantitative imaging of three-dimensional fiber orientation in the human brain via two illumination angles using polarization-sensitive optical coherence tomography Open
The accurate measurement of three-dimensional (3D) fiber orientation in the brain is crucial for reconstructing fiber pathways and studying their involvement in neurological diseases. Optical imaging methods such as polarization-sensitive …
View article: Quantification of volumetric morphometry and optical property in the cortex of human cerebellum at micrometer resolution
Quantification of volumetric morphometry and optical property in the cortex of human cerebellum at micrometer resolution Open
View article: Refractive-index matching enhanced polarization sensitive optical coherence tomography quantification in human brain tissue
Refractive-index matching enhanced polarization sensitive optical coherence tomography quantification in human brain tissue Open
The importance of polarization-sensitive optical coherence tomography (PS-OCT) has been increasingly recognized in human brain imaging. Despite the recent progress of PS-OCT in revealing white matter architecture and orientation, quantific…
View article: Quantification of volumetric morphometry and optical property in the cortex of human cerebellum at micrometer resolution
Quantification of volumetric morphometry and optical property in the cortex of human cerebellum at micrometer resolution Open
The surface of the human cerebellar cortex is much more tightly folded than the cerebral cortex. Volumetric analysis of cerebellar morphometry in magnetic resonance imaging studies suffers from insufficient resolution, and therefore has ha…