Lung ventilation Artificial Automatic

Ventilation plays an important role in maintaining the normal functioning of the body. However, sometimes due to various reasons, ventilation may be impaired and artificial breathing support may be required. This article will discuss artificial automatic ventilation (AIV), which is one of the methods of breathing support.

IAVL is a method of maintaining breathing in which a given level of carbon dioxide tension in the blood is automatically maintained. This is achieved through the use of a special device called an artificial lung ventilation device (AVL).

AVL consists of several parts: a breathing circuit (including a tube, mask or endotracheal tube), a gas block (containing a cylinder with oxygen and/or a mixture of oxygen and air, as well as a pressure regulator), a ventilation control device and patient monitoring.

During mechanical ventilation, a gas block supplies a mixture of oxygen and air to the breathing circuit, which in turn sends this mixture to the patient's lungs. The ventilation control and patient monitoring device monitors the level of carbon dioxide in the patient's blood and, based on this, determines the necessary ventilation parameters.

IAVL can be used in a variety of clinical situations, including asthmatic crisis, acute circulatory disorders, intoxication and other conditions requiring urgent medical attention.

However, IAV can also lead to various complications, such as lung damage, respiratory tract infections, and even death of the patient. Therefore, IAVL should be used only when it is really necessary, and under the supervision of experienced specialists.

In conclusion, artificial mechanical ventilation is an important method of respiratory support that can save the patient's life in critical situations. However, the use of mechanical ventilation should be limited to qualified professionals only and only in situations where other methods do not help.

Artificial automatic pulmonary ventilation (AVLIA) is a type of artificial pulmonary ventilation in which a given level of carbon dioxide tension in the blood is automatically maintained.

During VLIA, special devices are used that monitor the CO2 content in the exhaled air and automatically change ventilation parameters to maintain a given level of CO2 in the patient’s blood. This method allows you to optimize gas exchange in the lungs and prevent hyper- or hypoventilation.

The main indications for VLIA are acute respiratory failure, coma, shock of various origins. The advantage of automatic ventilation is the ability to quickly adapt ventilation parameters depending on the patient's condition.

VLIA allows you to effectively maintain gas exchange and reduce the load on the respiratory system in various critical conditions. Automatic control of ventilation makes this method more physiological and safe compared to manual modes of artificial ventilation.