White matter microstructure and volume show synchronous developmental patterns in children. White matter volume increases considerably during development. Fractional anisotropy, a measure for white matter microstructural directionality, also increases with age. Development of white matter volume and development of white matter microstructure seem to go hand in hand. The extent to which the same or different genetic and/or environmental factors drive these two aspects of white matter maturation is currently unknown. We mapped changes in white matter volume, surface area and diffusion parameters in mono- and dizygotic twins who were scanned at age 9 (203 individuals) and again at age 12 (126 individuals). Over the three-year interval, white m...
The purpose of the present study was to detail the childhood developmental course of different white...
Understanding genetic and environmental effects on white matter development in the first years of li...
Aim: We previously observed a complex pattern of differences in white matter (WM) microstructure bet...
<div><p>White matter microstructure and volume show synchronous developmental patterns in children. ...
White matter microstructure and volume show synchronous developmental patterns in children. White ma...
White matter (WM) microstructure, as determined by diffusion tensor imaging (DTI), is increasingly r...
Few large-scale studies have been done to characterize the normal human brain white matter growth in...
journal articleFew large-scale studies have been done to characterize the normal human brain white m...
Studies in adults indicate that white matter microstructure, assessed with diffusion tensor imaging ...
Diffusion tensor imaging (DTI) has been widely used to investigate the development of white matter (...
© 2019 Dr. Sila GencBrain development in childhood and adolescence is a highly dynamic process, gove...
Human white matter development in the first years of life is rapid, setting the foundation for later...
We investigated the isotropic diffusion coefficient (D') and fractional anisotropy (FA) in white mat...
The purpose of the present study was to detail the childhood developmental course of different white...
pre-printBACKGROUND AND PURPOSE-Diffusion tensor imaging (DTI) has been widely used to investigate t...
The purpose of the present study was to detail the childhood developmental course of different white...
Understanding genetic and environmental effects on white matter development in the first years of li...
Aim: We previously observed a complex pattern of differences in white matter (WM) microstructure bet...
<div><p>White matter microstructure and volume show synchronous developmental patterns in children. ...
White matter microstructure and volume show synchronous developmental patterns in children. White ma...
White matter (WM) microstructure, as determined by diffusion tensor imaging (DTI), is increasingly r...
Few large-scale studies have been done to characterize the normal human brain white matter growth in...
journal articleFew large-scale studies have been done to characterize the normal human brain white m...
Studies in adults indicate that white matter microstructure, assessed with diffusion tensor imaging ...
Diffusion tensor imaging (DTI) has been widely used to investigate the development of white matter (...
© 2019 Dr. Sila GencBrain development in childhood and adolescence is a highly dynamic process, gove...
Human white matter development in the first years of life is rapid, setting the foundation for later...
We investigated the isotropic diffusion coefficient (D') and fractional anisotropy (FA) in white mat...
The purpose of the present study was to detail the childhood developmental course of different white...
pre-printBACKGROUND AND PURPOSE-Diffusion tensor imaging (DTI) has been widely used to investigate t...
The purpose of the present study was to detail the childhood developmental course of different white...
Understanding genetic and environmental effects on white matter development in the first years of li...
Aim: We previously observed a complex pattern of differences in white matter (WM) microstructure bet...