Initial Study of Anisotropic Textures for Identification of Blood Vessels in 7T MRI Brain Phase Images

Barnes, Phillip D.

22 October 2010

No description available.

Biomedical Research

phase images

texture analysis

anisotropy

7T brain images

anisotropic texture features

blood vessel identification

Ensemble registration : combining groupwise registration and segmentation

Purwani, Sri

January 2016

Registration of a group of images generally only gives a pointwise, dense correspondence defined over the whole image plane or volume, without having any specific description of any common structure that exists in every image. Furthermore, identifying tissue classes and structures that are significant across the group is often required for analysis, as well as the correspondence. The overall aim is instead to perform registration, segmentation, and modelling simultaneously, so that the registration can assist the segmentation, and vice versa. However, structural information does play a role in conventional registration, in that if the registration is successful, it would be expected structures to be aligned to some extent. Hence, we perform initial experiments to investigate whether there is explicit structural information present in the shape of the registration objective function about the optimum. We perturbed one image locally with a diffeomorphism, and found interesting structure in the shape of the quality of fit function. Then, we proceed to add explicit structural information into registration framework, using various types of structural information derived from the original intensity images. For the case of MR brain images, we augment each intensity image with its own set of tissue fraction images, plus intensity gradient images, which form an image ensemble for each example. Then, we perform groupwise registration by using these ensembles of images. We apply the method to four different real-world datasets, for which ground-truth annotation is available. It is shown that the method can give a greater than 25% improvement on the three difficult datasets, when compared to using intensity-based registration alone. On the easier dataset, it improves upon intensity-based registration, and achieves results comparable with the previous method.

005.1

Shape Adaptive Integer Wavelet Transform Based Coding Scheme For 2-D/3-D Brain MR Images

Mehrotra, Abhishek

06 1900

No description available.

Biomedical Engineering

Brain - Images

Discrete Wavelet Transformers (DWT)

Integer Wavelet Transform

MR Images

Discrete Cosine Transforms (DCT)

Brain MRI

Biomedical Engineering

SEGMENTATION OF WHITE MATTER, GRAY MATTER, AND CSF FROM MR BRAIN IMAGES AND EXTRACTION OF VERTEBRAE FROM MR SPINAL IMAGES

PENG, ZHIGANG

02 October 2006

No description available.

Image Segmentation

Spatial-Varying Gaussian Mixture

Statistical Method

Markov Random Field

MR Brain Images

MR Spinal Images

Intensity Inhomogeneity

White Matter

Gray Matter

CSF

Expectation Maximization

Dimensionality Reduction for fMRI Diagnostic Systems

Sidhu, Gagan

Unknown Date

No description available.

fMRI

Machine Learning

Dimensionality Reduction

analysis

diagnosis

Artificial Intelligence

statistics

mathematics

image processing

image analysis

classification

brain images

psychiatry

neuropsychiatric disorder

psychiatric illness

mental health

schizophrenia

psychosis

adhd

neuroscience

fmri

functional magnetic resonance imaging

brain imaging