The cerebral stripes are two cellular layers formed from the gray matter of the cerebral cortex at the 4th-5th month of intrauterine development. The medullary striae are separated by a layer of loosely arranged neuroblasts.
The cerebral stripes are formed in the embryonic period and play an important role in the development of the cerebral cortex. They are composed of neuronal precursor cells that subsequently migrate and differentiate to form the complex structure of the brain. The separation of the medullary stripes by a loose layer of cells ensures directed migration of neurons during the process of corticalization. Disturbances in the formation of brain stripes can lead to serious defects in brain development.
The striatum medullaris are two layers of nerve cells located in the brain. They are formed during the formation of the cerebral cortex. The development of these layers begins at 4 or 5 months of intrauterine life and continues until the brain is fully formed.
The brain's stripes represent the first steps in the development of higher functions of the nervous system, such as pattern recognition, response to stimuli, and decision making. This process is very complex and multifaceted, requiring the effective functioning of many cells and intercellular connections.
Understanding how brain stripes are formed allows us to better understand what factors influence the development of human cognitive functions. In research
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