Title :
Visualization of Brain Microstructure Through Spherical Harmonics Illumination of High Fidelity Spatio-Angular Fields
Author :
Bista, Sanat ; Jiachen Zhuo ; Gullapalli, Rao P. ; Varshney, Amitabh
Author_Institution :
Univ. of Maryland, College Park, MD, USA
Abstract :
Diffusion kurtosis imaging (DKI) is gaining rapid adoption in the medical imaging community due to its ability to measure the non-Gaussian property of water diffusion in biological tissues. Compared to traditional diffusion tensor imaging (DTI), DKI can provide additional details about the underlying microstructural characteristics of the neural tissues. It has shown promising results in studies on changes in gray matter and mild traumatic brain injury where DTI is often found to be inadequate. The DKI dataset, which has high-fidelity spatio-angular fields, is difficult to visualize. Glyph-based visualization techniques are commonly used for visualization of DTI datasets; however, due to the rapid changes in orientation, lighting, and occlusion, visually analyzing the much more higher fidelity DKI data is a challenge. In this paper, we provide a systematic way to manage, analyze, and visualize high-fidelity spatio-angular fields from DKI datasets, by using spherical harmonics lighting functions to facilitate insights into the brain microstructure.
Keywords :
biodiffusion; biological tissues; biomedical MRI; biomedical optical imaging; brain; data visualisation; injuries; medical image processing; neurophysiology; DKI datasets; DTI dataset visualization; Glyph-based visualization techniques; biological tissues; brain microstructure visualization; diffusion kurtosis imaging; gray matter; high fidelity spatio-angular fields; higher fidelity DKI data; medical imaging community; microstructural characteristics; mild traumatic brain injury; neural tissues; non-Gaussian property; occlusion; orientation; spherical harmonics illumination; spherical harmonics lighting functions; traditional diffusion tensor imaging; water diffusion; Biomedical image processing; Brain modeling; Diffusion tensor imaging; Harmonic analysis; Lighting; Rendering (computer graphics); Tensile stress; Diffusion Kurtosis Imaging; Diffusion Tensor Imaging; Spatio-Angular Fields; Spherical Harmonics Fields; Tensor Fields;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2014.2346411
