Dynamoballistocardiogram

Dynamoballistocardiography (DBCG) is a method for studying the cardiovascular system, based on recording changes in the patient’s pressure and pulse in response to dynamic load.

DBCG allows you to assess the functioning of the heart and blood vessels at rest and under load, identify disturbances in the functioning of the cardiovascular system and determine the degree of their severity.

To carry out DBCG, a special device is used - a dynamoballooncardiograph. It consists of two balloons connected to blood pressure cuffs. The balloons are filled with air and attached to the patient's chest and legs.

During the study, the patient performs physical exercises that cause an increase in blood pressure and heart rate. At this time, the dynamoballooncardiograph records changes in pressure and pulse.

The obtained data is processed using special programs, which makes it possible to determine the performance of the cardiovascular system. This includes heart rate, stroke volume, mean arterial pressure, blood transit time through the heart, and other parameters.

The results of DBCG can be used to diagnose various diseases of the heart and blood vessels, as well as to monitor the effectiveness of treatment. For example, DBCG can help determine the presence of angina, arrhythmia, hypertension and other pathologies.

In general, dynamoballistocardiography is an important method for studying the cardiovascular system, which allows one to obtain valuable information about the functioning of the heart and blood vessels.

Dynamoballistacardiogram - (differential dynamo + balloscopy) - a method of simultaneous recording of a cardiogram and water-balloscopic images of the vapor phase from the walls of the chest using inspiratory and expiratory chest leads in unequal phases of breathing when the dynamo complex simultaneously affects the heart and water of the human lung tissue. A peculiar interference curve is recorded, which reveals the relief of the autoreflex (auto-counter-eversion) moving myocardium during heart contractions.

The method is based on recording the passive pressure of the water column rising from the bottom of the mouth to the tip of the nose during the patient’s voluntary respiratory movements, as well as the volume of air extracted with each breath using special tubes or devices. From the results of the analysis, conclusions can be drawn about the condition of the blood vessels, respiratory system, digestive organs, and circulatory system. Also, the patient’s age is determined by the pattern of skin folds and papillary lines. Thus, to summarize, I can say that dynamoball-cardiography is a medical diagnostic method that uses physics to study diseases of the cardiovascular system.