MR images of fetuses allow clinicians to detect brain abnormalities in an early stage of development. The cornerstone of volumetric and morphologic analysis in fetal MRI is segmentation of the fetal brain into different tissue classes. Manual segmentation is cumbersome and time consuming, hence automatic segmentation could substantially simplify the procedure. However, automatic brain tissue segmentation in these scans is challenging owing to artifacts including intensity inhomogeneity, caused in particular by spontaneous fetal movements during the scan. Unlike methods that estimate the bias field to remove intensity inhomogeneity as a preprocessing step to segmentation, we propose to perform segmentation using a convolutional neural networ...
Brain tissue segmentation is a prerequisite for many subsequent automatic quantitative analysis tech...
Automatic segmentation in MR brain images is important for quantitative analysis in large-scale stud...
Abstract. We present a segmentation method for fetal brain tissues of T2w MR images, based on the we...
MR images of the fetus allow non-invasive analysis of the fetal brain. Quantitative analysis of feta...
MR images of infants and fetuses allow non-invasive analysis of the brain. Quantitative analysis of ...
Fetal magnetic resonance imaging (MRI) is used for monitoring and characterizing fetal brain develop...
Fetal MRI is widely used to investigate brain development in utero. MR images do not only visualize ...
High-resolution volume reconstruction from multiple motion-corrupted stacks of 2D slices plays an in...
It is critical to quantitatively analyse the developing human fetal brain in order to fully understa...
It is critical to quantitatively analyse the developing human fetal brain in order to fully understa...
Automatic segmentation in MR brain images is important for quantitative analysis in large-scale stud...
Brain tissue segmentation is a prerequisite for many subsequent automatic quantitative analysis tech...
Automatic segmentation in MR brain images is important for quantitative analysis in large-scale stud...
Abstract. We present a segmentation method for fetal brain tissues of T2w MR images, based on the we...
MR images of the fetus allow non-invasive analysis of the fetal brain. Quantitative analysis of feta...
MR images of infants and fetuses allow non-invasive analysis of the brain. Quantitative analysis of ...
Fetal magnetic resonance imaging (MRI) is used for monitoring and characterizing fetal brain develop...
Fetal MRI is widely used to investigate brain development in utero. MR images do not only visualize ...
High-resolution volume reconstruction from multiple motion-corrupted stacks of 2D slices plays an in...
It is critical to quantitatively analyse the developing human fetal brain in order to fully understa...
It is critical to quantitatively analyse the developing human fetal brain in order to fully understa...
Automatic segmentation in MR brain images is important for quantitative analysis in large-scale stud...
Brain tissue segmentation is a prerequisite for many subsequent automatic quantitative analysis tech...
Automatic segmentation in MR brain images is important for quantitative analysis in large-scale stud...
Abstract. We present a segmentation method for fetal brain tissues of T2w MR images, based on the we...