Neurobiotaxis

Neurobiotaxis is the process by which neurons communicate with each other and form connections in the brain. These connections can be both short-term and long-term.

Neurobiotaxis plays an important role in the formation and development of the nervous system. It helps establish connections between neurons that are located in different parts of the brain, which allows us to perceive and process information from the environment. In addition, neurobiotaxis can influence human memory, emotions and behavior.

The process of neurobiotaxis occurs as a result of interactions between neurons. When two neurons touch their axons and dendrites, they can form synapses—special connections between them. Synapses allow electrical impulses to be transmitted between neurons and thereby regulate their activity.

In addition, neurobiotaxis can be used to treat various diseases of the nervous system, such as brain injury, stroke and Alzheimer's disease. In this case, neurons that have been damaged can recover and form new connections with other neurons in the brain.

Thus, neurobiotaxis is an important process in the development and functioning of the human nervous system. It plays a key role in forming connections between neurons and regulating their activity, which in turn affects our behavior and emotions.

Neurotaxis (from ancient Greek νεῦρον “fiber, nerve” + τάξις “order”) is the intercellular movement of neurons along intercellular gaps or extracellular fluid. Since neurons can move within tissues of various compositions (bone, fat or muscle tissue, but mainly blood),