Circulation Auxiliary

Auxiliary circulation (syn.: parallel circulation) is a system of blood vessels that ensures blood circulation between the main arteries and veins, bypassing the heart. This system provides an additional source of oxygen and nutrients to the body's tissues, especially in cases where the heart cannot provide sufficient blood flow.

The auxiliary circulation consists of several arteries and veins, which are located parallel to the main vessels. These vessels can be large or small, and they circulate blood to different areas of the body. For example, in the lungs, auxiliary arteries and veins provide blood supply to the alveoli, where gas exchange occurs between air and blood.

Despite the fact that the auxiliary circulation is an additional source of blood, its role is very important for the normal functioning of the body. It ensures sufficient blood supply to all tissues and organs, especially during stress or stressful situations. In addition, it helps maintain a constant internal environment of the body and control the level of oxygen in the blood.

In some cases, for example with diseases of the heart or blood vessels, auxiliary blood circulation may be impaired. This can lead to various problems such as insufficient blood supply to tissues, decreased oxygen levels in the blood and other complications. In such cases, it is necessary to diagnose and treat the underlying disease in order to restore the normal functioning of the auxiliary circulation.

Thus, auxiliary blood circulation plays an important role in the normal functioning of the body. It provides an additional source of blood and oxygen for tissues and organs. However, if the auxiliary circulation is impaired, this can lead to serious consequences. Therefore, it is important to monitor your health and consult a doctor promptly if symptoms of the disease appear.

Blood circulation Auxiliary: Main aspects and role in the body

The accessory circulation, also known as the concurrent circulation, is an important system that plays a role in ensuring optimal blood circulation in the body. In this article we will look at the main aspects of assisted circulation and its impact on the functioning of the organs and systems of the body.

Blood circulation in the human body is usually associated with the main circulatory system, which includes the heart, aorta, arteries, veins and capillaries. This system is responsible for transporting blood, oxygen and nutrients throughout the body. However, in addition to the main circulatory system, there is also an auxiliary circulatory system that plays an additional role in maintaining the normal functioning of organs.

The assisted circulation provides an additional pathway for blood that bypasses certain areas of the body and can be activated under certain physiological and pathological conditions. This system includes collateral arterial and venous pathways that can be activated to provide alternative blood flow in the event of disturbances in the main circulation.

One of the best known examples of circulatory support is the coronary circulation. When one or more arteries of the heart become stenotic or blocked, collateral arteries can begin to redirect blood around the affected vessels, thus ensuring adequate blood supply to the heart muscle and preventing ischemia and myocardial infarction.

In addition, circulatory assist can be activated in case of disturbances in blood flow in other areas of the body. For example, in peripheral arterial disease such as atherosclerosis or thrombosis, collateral arteries and veins may develop and dilate to provide an alternative pathway for blood and improve blood supply to affected tissues.

The role of circulatory support is expanding to other body systems. For example, in the lungs there are alternative blood flow pathways that can be involved in the event of disturbances in the main circulation. This is especially important in diseases such as pulmonary hypertension, where additional blood flow pathways help reduce stress on damaged vessels and ensure adequate blood supply to the lung tissue.

In conclusion, the circulatory accessory plays an important role in the body by providing alternative pathways for blood flow when the main circulation is compromised. It allows for sufficient blood supply to organs and tissues, preventing ischemia and other serious consequences. Understanding and studying assisted circulation is of great importance for the development of methods for the treatment and prevention of diseases associated with circulatory disorders. Further research in this area will help to reveal the full potential of circulatory assist and its application in medical practice.