Local features in volumetric images have been used to identify correspondences of localized anatomical structures for brain morphometry. However, the correspondences are often sparse thus ineffective in reflecting the underlying structures, making it unreliable to evaluate specific morphological differences. This paper presents a morphometry method (MEACOLP) based on correspondences with improved effectiveness and accuracy. A novel two-level scale-invariant feature transform is used to enhance the detection repeatability of local features and to recall the correspondences that might be missed in previous studies. Template patterns whose correspondences could be commonly identified in each group are constructed to serve as the basis for morp...
Neurodegenerative diseases afflict a significant portion of the world\u27s aging population, with Al...
AbstractThis paper presents a novel, publicly available repository of anatomically segmented brain i...
Machine learning techniques, along with imaging markers extracted from structural magnetic resonance...
Abstract. This paper presents feature-based morphometry (FBM), a new, fully data-driven technique fo...
Complex physiological and behavioral traits, including neurological and psychiatric disorders, often...
Complex physiological and behavioral traits, including neurological and psychiatric disorders, often...
The detection of brain alterations is crucial for understanding pathophysiological or neurodegenerat...
The development of advance techniques in the multiple fields such as image processing, data mining a...
Tensor-based morphometry (TBM) is a technique to identify morphological differences among different ...
Pattern analysis is very useful in medical imaging for analyzing biomedical images and detecting imp...
Brains suffering from Alzheimer’s disease show pronounced morphological modifications, with ample vo...
International audienceIntroduction When characterizing regional cerebral gray matter differences in ...
We develop a multivariate analysis of brain anatomy to identify the relevant shape deformation patte...
Anatomical shape analysis problems are ubiquitous in medical imaging. In brain MRI imaging, the prob...
Alzheimers disease (AD) is a neurodegenerative disease, that affects a wide spectrum of cognitive an...
Neurodegenerative diseases afflict a significant portion of the world\u27s aging population, with Al...
AbstractThis paper presents a novel, publicly available repository of anatomically segmented brain i...
Machine learning techniques, along with imaging markers extracted from structural magnetic resonance...
Abstract. This paper presents feature-based morphometry (FBM), a new, fully data-driven technique fo...
Complex physiological and behavioral traits, including neurological and psychiatric disorders, often...
Complex physiological and behavioral traits, including neurological and psychiatric disorders, often...
The detection of brain alterations is crucial for understanding pathophysiological or neurodegenerat...
The development of advance techniques in the multiple fields such as image processing, data mining a...
Tensor-based morphometry (TBM) is a technique to identify morphological differences among different ...
Pattern analysis is very useful in medical imaging for analyzing biomedical images and detecting imp...
Brains suffering from Alzheimer’s disease show pronounced morphological modifications, with ample vo...
International audienceIntroduction When characterizing regional cerebral gray matter differences in ...
We develop a multivariate analysis of brain anatomy to identify the relevant shape deformation patte...
Anatomical shape analysis problems are ubiquitous in medical imaging. In brain MRI imaging, the prob...
Alzheimers disease (AD) is a neurodegenerative disease, that affects a wide spectrum of cognitive an...
Neurodegenerative diseases afflict a significant portion of the world\u27s aging population, with Al...
AbstractThis paper presents a novel, publicly available repository of anatomically segmented brain i...
Machine learning techniques, along with imaging markers extracted from structural magnetic resonance...