Cubic Lead System Vectorcardiogram

The Cubic Vectorcardiogram System is a method for analyzing and interpreting vectorcardiography data that uses a cube-based coordinate system. This method makes it possible to more accurately determine the direction and magnitude of the electrical impulses of the heart, which can be useful for the diagnosis and treatment of cardiovascular diseases.

The Cube system is based on a three-dimensional coordinate system, where each axis represents the direction in which the vectorcardiogram data is recorded. This coordinate system allows you to determine the direction and strength of electrical impulses that are transmitted through the heart.

The cubic vectorocardiogram lead system uses three coordinate axes: anterior, posterior and vertical. Each axis has its own angle, which determines the direction of recording the vectorcardiogram data in the cube. For example, the front axle has an angle of 0 degrees, the rear axle has an angle of 90 degrees, and the vertical axis has an angle of 180 degrees.

When analyzing vectorcardiogram data using a cubic lead system, each pulse is recorded as a point on the surface of the cube. These points are then connected to form curves that show the direction and strength of the heart's impulses.

The use of a cubic vectorcardiogram lead system makes it possible to more accurately determine the direction and magnitude of heart impulses, which can help doctors in the diagnosis and treatment of cardiovascular diseases such as arrhythmia, coronary heart disease and others.

Thus, the cubic vectorcardiogram lead system is an effective tool for the analysis and interpretation of vectorcardiogram data, which can help in the diagnosis and treatment of cardiovascular diseases.