Tectal-Spinal Tract

Tire-spinnomarrowductus tract (TSP) is one of the most important pathways in the central nervous system, which connects the cerebellum to the brain and spinal cord. It is part of the brain stem and passes through the medulla oblongata, cerebellum and spinal cord.

The PSP begins on the surface of the cerebellum, where it is called the tegmental tract. From there it passes through the cerebellotegmental tract, which is a continuation of the tegmental tract. The PSP then continues through the cerebellum, where it branches into several branches. One of the branches passes through the pons and ends in the brain stem. The other branch passes through the spinal cord and ends in the medulla oblongata.

The tegnospinal tract plays an important role in regulating movement and coordinating body movements. They control muscle tone, balance and equilibrium of the body, and are also involved in the regulation of breathing and heart rate. In addition, the PSP plays an important role in processing information about body position and movement, which helps us maintain balance and coordinate movements.

Overall, the tegnospinal tract plays an important role in many functions of the central nervous system, including coordination of movements, regulation of muscle tone and body balance.



The tectal-spinahlis tract (tractus tectobulbo-spinalis [t. tectospinahlis]) is a relatively short pathway in the brain that connects the midbrain tectum to the sacral spinal cord. It is an important element in coordinating human movement and maintaining body balance. This pathway plays a key role in the development of walking skills, motor control and maintaining body balance, making it essential for the body to function properly.

First of all, the PSM begins its formation as two separate pathways that begin in the tectum of the midbrain, called the tectobulbospinale. The first is called the intermediate tectobulboid fasciculus (fasciculus tectobiulboidcis medium), which transmits information from the midbrain tegmentum to the cerebellum. The second, called the medulla tectobulbar fasciculus (fascicularis techtublbaridis longi), transmits signals from the cerebellum to the spinal cord, and ultimately reaches the sacral segments of the spinal cord, as it connects the cerebellum to the sacrum. In addition, this pathway also transmits other sensory signals to the spinal cord, such as information about changes in the position of the head and body in space or information from the vestibular and auditory apparatus.

The unique structure and functions of the PSM are associated with its belonging to several systems of the internal organization of the brain. Thus, the intermediate parts of the midbrain tegmentum connect them with the thalamic system (thalamus), which is involved in the processing of sensory information in the central nervous system. And the continuing pathways of the tectobulbospinal tract with the influence of the cerebellum pass through the cerebellar region, therefore PSM is also associated with the functions of motor coordination and neurological connections of the cerebellum with the spinal region.

This spinal tract is lined with myoperiganglion cells, which help protect the nervous system.