Red Nuclear Spinal Tract

The red nucleus-spinal tract (tractus rubrospinalis) is one of the most important pathways in the central nervous system, which connects the red nucleus and the spinal cord. This pathway plays an important role in the regulation of movements and coordination of movements.

The red nucleus is located in the brain stem of the brain, at the level of the midbrain. It is responsible for controlling muscle tone and coordination of movements. The red nucleus spinal tract starts from the red nucleus and passes through the spinal cord to the motor neurons, which are located in the anterior horn of the spinal cord.

This path has several functions. First, it transmits signals from the red nucleus to the spinal cord, which allows you to control muscle tone. Secondly, the red nucleus spinal tract is involved in the regulation of posture and balance. Thirdly, it plays an important role in the control of movements, such as walking, running and other active activities.

The red nucleus spinal tract is an important pathway in the central nervous system. It plays an important role in coordinating movements and controlling muscle tone. Disturbances in this pathway can lead to various diseases such as Parkinson's disease and other movement disorders.

The red nuclear spinal tract or Monakov's bundle is interpreted as a continuation of the brain into the spinal cord. It consists of the body of Meynert and the roots of the Franke nucleus. Monakov introduced the term red nuclear bundle to designate this anatomical formation. The body of Meynert or the red nucleus is a posterior horn associated with the center of Meynert which is located at the bottom of the Sylvian aqueduct. The nepraxa and nephragma develop in the anterior part of the spinal cord. Neprax starts from the anterior lamina, passes through the posterior lamina and ends in the roots of the thalamus. The neurons of the red nucleus tract pass transiently between the anterior and posterior laminae. The Monakov tract is designed to control the lumbar segment, limb function, and muscle tone. However, it is divided into three large spinocranial tracts: posterior, lateral, and anterior. The posterior tract is the red tract