The segmentation of brain tissue from nonbrain tissue in magnetic resonance (MR) images, commonly referred to as skull stripping, is an important image processing step in many neuroimage studies. A new mathematical algorithm, a model-based level set (MLS), was developed for controlling the evolution of the zero level curve that is implicitly embedded in the level set function. The evolution of the curve was controlled using two terms in the level set equation, whose values represented the forces that determined the speed of the evolving curve. The first force was derived from the mean curvature of the curve, and the second was designed to model the intensity characteristics of the cortex in MR images. The combination of these forces in a le...
An automated method for segmenting magnetic resonance head images into brain and non-brain has been ...
Abstract Background The extraction of brain tissue from magnetic resonance head images, is an import...
Abstract. A robust method for the removal of non-cerebral tissue in T1-weigh-ted magnetic resonance ...
AbstractIn this paper, a new concept has been incorporated using level set methodology for the speci...
International audienceSkull stripping methods are designed to eliminate the non-brain tissue in magn...
Brain is the part of the central nervous system located in skull. For the diagnosis of human brain b...
International audienceTo isolate the brain from non-brain tissues using a fully automatic method may...
ABSTRACT : Image segmentation plays a vital role in image processing over the last few years. The g...
Performance of automated methods to isolate brain from nonbrain tissues in magnetic resonance (MR) s...
Image segmentation plays a vital role in image processing over the last few years. The goal of image...
Abstract. This paper presents the implementation and quantitative evaluation of a four-phase three-d...
Magnetic Resonance Imaging is one of the most important medical imaging techniques for the investiga...
Advances in medical imaging technologies have given rise for effective diagnostic procedures. The ac...
BackgroundSegmentation methods for medical images may not generalize well to new data sets or new ta...
Skull stripping is a major phase in MRI brain imaging applications and it refers to the removal of i...
An automated method for segmenting magnetic resonance head images into brain and non-brain has been ...
Abstract Background The extraction of brain tissue from magnetic resonance head images, is an import...
Abstract. A robust method for the removal of non-cerebral tissue in T1-weigh-ted magnetic resonance ...
AbstractIn this paper, a new concept has been incorporated using level set methodology for the speci...
International audienceSkull stripping methods are designed to eliminate the non-brain tissue in magn...
Brain is the part of the central nervous system located in skull. For the diagnosis of human brain b...
International audienceTo isolate the brain from non-brain tissues using a fully automatic method may...
ABSTRACT : Image segmentation plays a vital role in image processing over the last few years. The g...
Performance of automated methods to isolate brain from nonbrain tissues in magnetic resonance (MR) s...
Image segmentation plays a vital role in image processing over the last few years. The goal of image...
Abstract. This paper presents the implementation and quantitative evaluation of a four-phase three-d...
Magnetic Resonance Imaging is one of the most important medical imaging techniques for the investiga...
Advances in medical imaging technologies have given rise for effective diagnostic procedures. The ac...
BackgroundSegmentation methods for medical images may not generalize well to new data sets or new ta...
Skull stripping is a major phase in MRI brain imaging applications and it refers to the removal of i...
An automated method for segmenting magnetic resonance head images into brain and non-brain has been ...
Abstract Background The extraction of brain tissue from magnetic resonance head images, is an import...
Abstract. A robust method for the removal of non-cerebral tissue in T1-weigh-ted magnetic resonance ...