The internal pyramidal plate (lamina pyramidalis interna) is an important element in the structure of the brain, which plays an important role in the transmission of nerve impulses. It is located within the pyramidal tract, which runs from the thalamus to the cerebral cortex.
The internal pyramidal plate consists of many small neurons that form a complex network of connections with other neurons and brain structures. It is involved in the regulation of movements, sensitivity and coordination of movements.
When the internal pyramidal plate is damaged, various disorders may occur, such as impaired coordination of movements, loss of sensitivity, problems with speech, and others. In some cases, this can lead to paralysis or loss of motor function.
To treat damage to the internal pyramidal plate, various methods are used, such as surgery, physiotherapy, medication and others. It is important to understand that damage to the internal pyramidal plate is often associated with other brain diseases and requires an integrated approach to treatment.
The internal pyramidal plate (lat. lamina pyramidal is interna - “internal pyramidal”) is a neural plate that is located in the middle of the cerebral cortex and is part of the midbrain. It is formed by a collection of nerve cells that receive information from other parts of the brain and transmit it further throughout the body.
The internal pyramidal lamina is also known as the ganglion lamina. This is due to the fact that it is supplied with fibers of large afferent fibers having a ganglion sheath
This plate surrounds the nuclei of the large brain - neurons, neural connections, supporting structures. This cell between the hemispheres of the brain (parietal lobe), which regulates the coordination of body movement, monitors balance. The semicircular canals and their fibers pass through the surface of the nucleus. They change the excitability of pyramidal cells, which go from the nucleus to the anterior