PURPOSE: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neurodevelopmental outcome. We propose an automatic method for probabilistic brain segmentation in neonatal MRIs. MATERIALS AND METHODS: In an IRB-approved study axial T1- and T2-weighted MR images were acquired at term-equivalent age for a preterm cohort of 108 neonates. A method for automatic probabilistic segmentation of the images into eight cerebral tissue classes was developed: cortical and central grey matter, unmyelinated and myelinated white matter, cerebrospinal fluid in the ventricles and in the extra cerebral space, brainstem and cerebellum. Segmentation is based on supervised pixel classification using intensity values and spatial po...
The segmentation of MR images of the neonatal brain is an essential step in the study and evaluation...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neurodevelopm...
Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neurodevelopm...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
Quantitative brain tissue segmentation from newborn MRI offers the possibility of improved clin-ical...
The need for a good segmentation method for neonatal brain MR images increased over the last decade ...
Automatic brain tissue segmentation is of clinical relevance in images acquired at all ages. The lit...
The segmentation of MR images of the neonatal brain is an essential step in the study and evaluation...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Purpose: Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neur...
Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neurodevelopm...
Volumetric measurements of neonatal brain tissues may be used as a biomarker for later neurodevelopm...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
A fully automated method has been developed for segmentation of four different structures in the neo...
Quantitative brain tissue segmentation from newborn MRI offers the possibility of improved clin-ical...
The need for a good segmentation method for neonatal brain MR images increased over the last decade ...
Automatic brain tissue segmentation is of clinical relevance in images acquired at all ages. The lit...
The segmentation of MR images of the neonatal brain is an essential step in the study and evaluation...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...
The human brain undergoes drastic development in its anatomy and organization from the last trimeste...