Subplate zone (SP) is prominent, transient laminar compartment of the human fetal cerebral wall. The SP develops around 13 and gradually disappears after 32-34 postovulatory weeks. The SP neurons can be found as late as nine postnatal months, while remnants of the SP neurons can be traced until adult age in the form of interstitial neurons of the gyral white matter. SP is composed of postmigratory and migratory neurons, growth cones, loosely arranged axons, dendrites, glial cell and synapses. The remarkable feature of the SP is the presence of large amount of extracellular matrix. This feature can be used for delineation of SP in magnetic resonance images (MRI) of both, in vivo and post mortem brains. The importance of SP as the main synapt...
Our knowledge about the developing human cerebral cortex is based on the analysis of fixed postmorte...
The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and co...
Normal brain development is crucial for the proper maturation of neural circuits and cognitive funct...
Subplate zone (SP) is prominent, transient laminar compartment of the human fetal cerebral wall. The...
The waiting period of subplate evolution is a critical phase for the proper formation of neural conn...
The subplate is a transient structure essential for normal development of the cortex. We used magnet...
The waiting period of subplate evolution is a critical phase for the proper formation of neural conn...
During early development the structure and function of the cerebral cortex is critically organized b...
Transitional neuronal layers are a hallmark of the prenatal and neonatal brain yet their contributio...
This review summarizes early human brain development on the basis of neuroanatomical data and functi...
The subplate is a largely transient zone containing precocious neurons involved in several key steps...
This review summarizes early human brain development on the basis of neuroanatomical data and functi...
Morphological features of the subplate, the thalamic reticular complex and the ganglionic eminence, ...
During early development the structure and function of the cerebral cortex is critically organized b...
The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and co...
Our knowledge about the developing human cerebral cortex is based on the analysis of fixed postmorte...
The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and co...
Normal brain development is crucial for the proper maturation of neural circuits and cognitive funct...
Subplate zone (SP) is prominent, transient laminar compartment of the human fetal cerebral wall. The...
The waiting period of subplate evolution is a critical phase for the proper formation of neural conn...
The subplate is a transient structure essential for normal development of the cortex. We used magnet...
The waiting period of subplate evolution is a critical phase for the proper formation of neural conn...
During early development the structure and function of the cerebral cortex is critically organized b...
Transitional neuronal layers are a hallmark of the prenatal and neonatal brain yet their contributio...
This review summarizes early human brain development on the basis of neuroanatomical data and functi...
The subplate is a largely transient zone containing precocious neurons involved in several key steps...
This review summarizes early human brain development on the basis of neuroanatomical data and functi...
Morphological features of the subplate, the thalamic reticular complex and the ganglionic eminence, ...
During early development the structure and function of the cerebral cortex is critically organized b...
The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and co...
Our knowledge about the developing human cerebral cortex is based on the analysis of fixed postmorte...
The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and co...
Normal brain development is crucial for the proper maturation of neural circuits and cognitive funct...