Magnetic resonance imaging (MRI) is widely utilized for diagnosing and monitoring of spinal disorders. For a number of applications, particularly those related to quantitative MRI, an essential step towards achieving reliable and objective measurements is the segmentation of the examined structures. Performed manually, such process is time-consuming and prone to errors, posing a bottleneck to its clinical applicability. A more efficient analysis would be achieved by automating a segmentation process. However, routine spine MRI acquisitions pose several challenges for achieving robust and accurate segmentations, due to varying MRI acquisition characteristics occurring in data acquired from different sites. Moreover, heterogeneous annotated d...
Automatic localization and identification of vertebrae in medical images of the spine are core requi...
Background and objective: Lower back pain in humans has become a major risk. Classical approaches fo...
The study introduces a novel method for automatic segmentation of vertebral column tissue from MRI i...
Magnetic resonance imaging (MRI) is widely utilized for diagnosing and monitoring of spinal disorder...
Recent developments in high resolution MRI scanning of the human spine are providing increasing oppo...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
The development of quantitative imaging biomarkers in medicine requires automatic delineation of rel...
Recent advances in high resolution magnetic resonance (MR) imaging of the spine provide a basis for ...
This paper proposed an automated 3D lumbar intervertebral disc (IVD) segmentation strategy from MRI...
This thesis addresses the problem of analysing clinical MRI using modern computer vision methods for...
Automated segmentation of intervertebral discs (IVDs) from magnetic resonance imaging has the potent...
Segmentation of vertebral bodies is useful for diagnosis of certain spine pathologies, such as scoli...
We describe a method to automatically detect and label the vertebrae in human lumbar spine MRI scans...
Lumbar vertebra anatomical region segmentation is crucial in an automated spine processing pipeline....
Automatic localization and identification of vertebrae in medical images of the spine are core requi...
Background and objective: Lower back pain in humans has become a major risk. Classical approaches fo...
The study introduces a novel method for automatic segmentation of vertebral column tissue from MRI i...
Magnetic resonance imaging (MRI) is widely utilized for diagnosing and monitoring of spinal disorder...
Recent developments in high resolution MRI scanning of the human spine are providing increasing oppo...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
We propose a semi-automatic algorithm for the segmentation of vertebral bodies in magnetic resonance...
The development of quantitative imaging biomarkers in medicine requires automatic delineation of rel...
Recent advances in high resolution magnetic resonance (MR) imaging of the spine provide a basis for ...
This paper proposed an automated 3D lumbar intervertebral disc (IVD) segmentation strategy from MRI...
This thesis addresses the problem of analysing clinical MRI using modern computer vision methods for...
Automated segmentation of intervertebral discs (IVDs) from magnetic resonance imaging has the potent...
Segmentation of vertebral bodies is useful for diagnosis of certain spine pathologies, such as scoli...
We describe a method to automatically detect and label the vertebrae in human lumbar spine MRI scans...
Lumbar vertebra anatomical region segmentation is crucial in an automated spine processing pipeline....
Automatic localization and identification of vertebrae in medical images of the spine are core requi...
Background and objective: Lower back pain in humans has become a major risk. Classical approaches fo...
The study introduces a novel method for automatic segmentation of vertebral column tissue from MRI i...