Spike Supervisory Highest

Spike Supervisory Highest: what is it and how does it work?

The Supraoptica Suprema, also known as the Ganzer Spike, is one of the most important structures in the hypothalamus of the brain. This small group of neurons is located at the top of the hypothalamus and plays a key role in regulating behavior and hormonal activity.

How does Spike the Supervisory Highest work?

The Commissure Supervisory Superior consists of two types of neurons: neurons that produce vasopressin (ADH) and neurons that produce oxytocin. Vasopressin and oxytocin are hormones that are involved in regulating social behavior, including maternal caregiving behavior and aggression.

Neurons that produce vasopressin play an important role in regulating the renin-angiotensin system, which controls blood pressure and the balance of water and electrolytes in the body. Neurons that produce oxytocin influence social behavior and regulate uterine contractions during labor.

The Supervisory Superior commissure is also involved in the regulation of several behaviors, including aggressive behavior and feeding behavior. For example, neurons that produce vasopressin may stimulate aggressive behavior in males when fighting for territory or a mate.

Conclusion

The Commissure Supervisosum is an important neural structure that plays a key role in regulating behavior and hormonal activity. This structure consists of neurons that produce vasopressin and oxytocin, which control various aspects of social behavior and physiological processes in the body. Despite the fact that many aspects of the work of the Supervisory Highest Commissure still remain unexplored, its importance for understanding the functioning of the brain and its role in behavior and the health of the body cannot be overestimated.

The Superior Commissure or Ganzer's commissure is a formation in the anterior part of the brain (in embryos) that extends from the optic nerve to the third ventricle. It has important functions in the development of vision, coordination of movements, memory and emotions. The Highest Supervisory commissure may be underdeveloped in high phenytoin or estrogen conditions, resulting in a lethal condition in the neonatal period. In case of a violation of the development of the Supervisory Highest adhesion, it is noted as van Turk syndrome.

The name "Supervisor" is explained by its role in controlling the flow of signals into the nuclei of the visual cortex. The Supervisor's Highest commissure consists of 6 segments, which have different structures and complexity. Its lower segment is located directly under the optic nerve and plays a role in transmitting signals from the eye to the brain. The upper segment ends on the posterior slope of the third cerebral ventricle, which is involved in the circulation of cerebrospinal fluid. The remaining segments of the Higher Surveillance commissure are interconnected, forming a complex network of microtubules that transmit signals.