Coronary angiography Selective

Coronary angiography is a diagnostic method that allows you to assess the condition of the coronary arteries of the heart. It is used to identify and evaluate the degree of narrowing of the coronary arteries, which may be associated with various heart diseases such as coronary heart disease, myocardial infarction, atherosclerosis and others.

Coronary angiography is an invasive diagnostic method that requires the injection of a contrast agent into the coronary arteries. To do this, a special catheter is used, which is passed through a large vein in the arm or leg and then inserted into the coronary artery. A contrast agent is injected through a catheter into the coronary artery and allows its condition to be visualized.

Selective coronary angiography is a type of coronary angiography that allows the evaluation of only those coronary arteries that are suspected of having disease. To do this, a special catheter with microscopic holes is used, which allows the contrast agent to be injected only into those coronary arteries where there is a suspicion of disease.

Thus, selective coronary angiography makes it possible to more accurately assess the condition of the coronary arteries and identify diseases that can lead to serious complications. It is an important diagnostic tool for patients with suspected heart disease and can help doctors make the right treatment decisions.

Coronary angiography is a method of X-ray examination of the cavities of the heart, in which an X-ray screen using a special tube (X-ray film) can detect the presence of blockages in the coronary arteries.

Selective coronary angiography. One of the most accurate and modern methods for determining myocardial infarction is selective coronary angiography (SCA). SCG is an X-ray contrast method for radiological diagnosis of atherosclerotic lesions of the coronary arteries. This diagnostic method is based on the ability of modern X-ray contrast agents to selectively accumulate in atherosclerotic plaques. Then, with the help of modern computer technologies, it is possible to clearly visualize the presence of plaques in the affected vessels, which is fully consistent with the modern scientific paradigm. In addition, the speed of blood circulation in the area of ​​the atherosclerotic plaque is low and, as a result, the contrast accumulates at the site of the plaque more slowly, thereby giving an additional picture of its visual characteristics.