Various structures in human physiology follow a treelike morphology, which often expresses complexity at very fine scales. Examples of such structures are intrathoracic airways, retinal blood vessels, and hepatic blood vessels. Large collections of 2D and 3D images have been made available by medical imaging modalities such as magnetic resonance imaging (MRI), computed tomography (CT), Optical coherence tomography (OCT) and ultrasound in which the spatial arrangement can be observed. Segmentation of these structures in medical imaging is of great importance since the analysis of the structure provides insights into disease diagnosis, treatment planning, and prognosis. Manually labelling extensive data by radiologists is often time-consuming...
A quantitative description of the morphology of lung structure is essential prior to any form of pre...
Accurate geometric models of human airways and arterial vessels play a critical role in the analysis...
Modern medical imaging techniques have revolutionized health care over the last decades, providing c...
Various structures in human physiology follow a treelike morphology, which often expresses complexit...
IntroductionMultiple organs in the human body feature vascular trees; by the aid of imaging techniqu...
This paper presents a new spatial fully connected tubular network for 3D tubular-structure segmentat...
We present a novel method for lung vessel tree segmentation. The method combines image information a...
This work addresses the challenging problem of accurate vessel structure analysis in high resolution...
Tubular organs (blood vessels and bronchial tubes), because of their anti-compact nature, generally ...
This thesis is focused on extracting the structure of vessels from 3D cardiac images. In many biomed...
Segmenting tubular anatomies from medical images is a difficult task. In addition to all the obstacl...
Tubular and tree structures appear very commonly in biomedical images like vessels, microtubules or...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
Treball de fi de grau en BiomèdicaTutors: Chong Zhang i Miguel Ángel González BallesterThis project ...
International audienceThe study of the coronary vessel structure is crucial to the diagnosis of athe...
A quantitative description of the morphology of lung structure is essential prior to any form of pre...
Accurate geometric models of human airways and arterial vessels play a critical role in the analysis...
Modern medical imaging techniques have revolutionized health care over the last decades, providing c...
Various structures in human physiology follow a treelike morphology, which often expresses complexit...
IntroductionMultiple organs in the human body feature vascular trees; by the aid of imaging techniqu...
This paper presents a new spatial fully connected tubular network for 3D tubular-structure segmentat...
We present a novel method for lung vessel tree segmentation. The method combines image information a...
This work addresses the challenging problem of accurate vessel structure analysis in high resolution...
Tubular organs (blood vessels and bronchial tubes), because of their anti-compact nature, generally ...
This thesis is focused on extracting the structure of vessels from 3D cardiac images. In many biomed...
Segmenting tubular anatomies from medical images is a difficult task. In addition to all the obstacl...
Tubular and tree structures appear very commonly in biomedical images like vessels, microtubules or...
Medical imaging is nowadays much more than only providing data for diagnosis. It also links 'classic...
Treball de fi de grau en BiomèdicaTutors: Chong Zhang i Miguel Ángel González BallesterThis project ...
International audienceThe study of the coronary vessel structure is crucial to the diagnosis of athe...
A quantitative description of the morphology of lung structure is essential prior to any form of pre...
Accurate geometric models of human airways and arterial vessels play a critical role in the analysis...
Modern medical imaging techniques have revolutionized health care over the last decades, providing c...