To investigate anatomical differences across individual subjects, or longitudinal changes in early brain development, it is important to perform accurate image registration. However, due to fast brain development and dynamic tissue appearance changes, it is very difficult to align infant brain images acquired from birth to 1-yr-old
This paper describes a coarse-to-fine learning based im-age registration algorithm which has particu...
Studies for infants are usually hindered by the insufficient image contrast, especially for neonates...
This work describes and compares two different methods for iden-tifying growth patterns in preterm i...
To investigate anatomical differences across individual subjects, or longitudinal changes in early b...
Many brain development studies have been devoted to investigate dynamic structural and functional ch...
The first year of life is the most dynamic and perhaps the most critical phase of postnatal brain de...
pre-printDeformable image registration in the presence of considerable contrast dierences and large-...
Comparison of brain samples representing different developmental stages often necessitates registeri...
Understanding the neurophysiology of human cognitive development relies on methods that enable accur...
Mapping images into the same anatomical coordinate system via image registration is a fundamental st...
Automated medical image analysis has made significant progress over the past decades. With recent ad...
Survival of pediatric patients with brain tumor has increased over the past 20 years, and incre...
Accurate and consistent segmentation of infant brain MR images plays an important role in quantifyin...
pre-printDeformable image registration in the presence of considerable contrast differences and larg...
Studies for infants are usually hindered by the insufficient image contrast, especially for neonates...
This paper describes a coarse-to-fine learning based im-age registration algorithm which has particu...
Studies for infants are usually hindered by the insufficient image contrast, especially for neonates...
This work describes and compares two different methods for iden-tifying growth patterns in preterm i...
To investigate anatomical differences across individual subjects, or longitudinal changes in early b...
Many brain development studies have been devoted to investigate dynamic structural and functional ch...
The first year of life is the most dynamic and perhaps the most critical phase of postnatal brain de...
pre-printDeformable image registration in the presence of considerable contrast dierences and large-...
Comparison of brain samples representing different developmental stages often necessitates registeri...
Understanding the neurophysiology of human cognitive development relies on methods that enable accur...
Mapping images into the same anatomical coordinate system via image registration is a fundamental st...
Automated medical image analysis has made significant progress over the past decades. With recent ad...
Survival of pediatric patients with brain tumor has increased over the past 20 years, and incre...
Accurate and consistent segmentation of infant brain MR images plays an important role in quantifyin...
pre-printDeformable image registration in the presence of considerable contrast differences and larg...
Studies for infants are usually hindered by the insufficient image contrast, especially for neonates...
This paper describes a coarse-to-fine learning based im-age registration algorithm which has particu...
Studies for infants are usually hindered by the insufficient image contrast, especially for neonates...
This work describes and compares two different methods for iden-tifying growth patterns in preterm i...