Neuropil is a looped network visible under a microscope that surrounds the body of a neuron. It is formed by axons, dendrites and processes of glial cells.
The neuropil is the most characteristic part of the nervous tissue. It fills the space between the bodies of nerve cells and their processes. The neuropil ensures interaction and exchange of signals between different neurons.
The neuropil includes:
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Axons are long processes of nerve cells that carry nerve impulses.
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Dendrites are short branched processes of neurons that receive signals from other cells.
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The processes of glial cells, in particular astrocytes, which maintain the structural integrity of the neuropil and are involved in metabolism.
Thus, the neuropil is an important structural and functional unit of the nervous system, ensuring interaction and transmission of information between neurons.
The neuropil is a looped network visible under a microscope that surrounds the body of the neuron. It is formed by axons, dendrites and processes of glial cells.
The neuropil is the bulk of the gray matter of the brain and spinal cord. It is where synaptic contacts between nerve cells occur. Thanks to these contacts, nerve impulses are transmitted in the nervous system.
The structure of the neuropil is important for understanding the organization of neural networks and information processing mechanisms in the brain. Changes in the neuropil can lead to disorders of nervous activity. Therefore, the study of the neuropil is of great importance for neurology and neurobiology.
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