Nervous system Ergotropic

The ergotropic nervous system (ENS) is a term used in physiology and psychology to describe the functioning of the nervous system during physical activity. Unlike the trophotropic system, which is responsible for recovery and rest, the neurotropic system is responsible for maintaining and regulating physical activity.

The SNE includes various brain structures that are involved in the regulation of physical activity, such as the hypothalamus, reticular formation, cerebral cortex, cerebellum and others. These structures respond to signals from muscles and other organs to regulate physical activity and maintain it at an optimal level.

One of the key functions of the SNE is to regulate energy levels in the body. When the body is at rest, the hypothalamus sends signals that regulate hormone levels such as cortisol and testosterone to maintain optimal energy levels.

However, when the body begins to engage in physical activity, the SHE is activated and begins to release additional hormones such as adrenaline and norepinephrine, which help increase energy levels and improve focus and concentration.

In addition, the SNE plays an important role in controlling muscle activity. The cerebral cortex receives signals from muscles that allow it to regulate muscle activity and coordinate body movements.

Thus, the SNE is an important system for maintaining and regulating physical activity and maintaining optimal energy levels in the body. Its study may help develop new methods of treatment and prevention of various diseases associated with physical activity and energy levels.

Nervous ergotropy is a type of nervous activity that is responsible for maintaining muscle tone and body movements. This type of nervous activity plays an important role in regulating our physical condition and our health. This system is known as the engine of our external activity and ability to think and learn.

The Erugotropic Nervous System is the main component of our nervous system. It is a system of nerve cells that are found in ganglia throughout the body. Each nerve has its own sensory zone and is responsible for communicating with other nerves in the body and for controlling and coordinating muscle movements.

Nervous ergotropism works in synergy with