The Internal Tunnel is an anatomical structure in the human body that is a narrow channel passing through the cerebral cortex. The Internal Tunnel is part of the internal auditory system and plays an important role in transmitting sound signals from the ear to the brain.
The Internal tunnel is about 40 millimeters long and runs through the middle part of the temporal lobe. It consists of two walls: internal and external. The inner wall is formed by glial cells, and the outer wall by nerve fibers.
The Inner Tunnel channel contains auditory nerve fibers that carry sound signals from the ear to the brain. The auditory nerve fibers form the so-called canal of Corti, which passes through the Internal tunnel and connects with hearing receptors located in the pyramids of the temporal lobes.
The outer wall of the Internal tunnel contains many blood vessels that provide nutrition to the nerve fibers. In addition, the Inner Tunnel channel contains other structures such as cerebral arteries, veins and nerves.
Dysfunction of the internal tunnels can lead to hearing loss, especially in diseases associated with damage to the auditory nerve or its fibers. However, the Inner tunnel is also the subject of neurobiological research and can be used to study the mechanisms of sound transmission and the functions of the nervous system.
The Inner Ear Tunnel is a small opening in the pyramids of the human inner ear, which is located in the bones of the head. This is an important element for our hearing, since it is through this tunnel that sound waves pass, which are then transmitted by nerves to the brain.
The inner ear tube not only serves to transmit sound, but is also important