What is a dentat core?

Dentate core is an integral part of the brain brain, anatomically and functionally. It is one of the four pairs of deep cerebeline cores that coordinate the complicated brain function. Each cores have axons that project into the brain stem that send messages to be accepted by the central nervous system (CNS). The Dentate core is partially responsible for the coordination and start of voluntary movement in peripheral nerve and skeletal muscle systems. The specific areas of the Dentate core are intended to communicate with specific CNS systems that lead to the progression of voluntary movement and autonomous thought processes. The dentate core is covered by the overlapping brain bark and in some cases the combination of this tissue and the nucleus is referred to as Cerecrocerebellum. It receives signals from afferent or incoming CNS signals. This area is largely controlled and maintained by specialized cells called burkinj cells that are located throughout the body. Cerebellum has the highestThe concentration of burkinjových cells, which, however, forms a distinctive layer that integrates and "drives" brains by sending excitative and inhibitory signals along extensive and elongated dendritic axons. This connection allows the brain to perform motor function in the muscles that are innervated in the skeletal muscle system. Aferent sensory entry from the CNS initially activates the dorsal side of the respiratory core.

Cerebellum is considered one of the most important and basic parts of human anatomy. The whole system containing deep cerebral nuclei belongs to a single anatomical backpack in the brain. Cerebellum needs a sensory entry from the Dentate core to Communic with any part of the body, including the areas in the brain itself, which form and roam coherent and creative thinking. The ventral side of the Dentate core is largely responsible for a higher cerebellar function. For example, cognition and complicated maneuvering of skeleton movementThe muscles, such as playing piano or dance, depend on the optimal functioning of the deep nucleus.

All input from the CNS must pass through the brain. Before the afferent signals are processed and organized by the Dentate core, they are too "rough" to function normally. Some brain disorders, such as neurofibromatosis, may affect the functioning of the cerebral pathway and the Dentate core. In neurofibromatosis, the lesions are formed on dentate and cause severe skeletal and cognitive dysfunction if the disease is not treated. Alzheimer's disease may have correlations with a deep cerebellar core.