Seismocardiography: New horizons in the diagnosis of cardiovascular diseases
Seismocardiography is an innovative method for diagnosing cardiovascular diseases that combines the principles of seismology and cardiology. Using modern technology, seismocardiography allows you to non-destructively study the vibrations of the heart and obtain valuable information about its function.
The name "seismocardiography" comes from the Greek words "seismos" (shock, vibration) and "cardiography" (study of the heart). This method is based on the use of ultrasonic waves to record the contractions and relaxations of the heart muscle. Using special sensors placed on the surface of the patient's chest, seismocardiography records and analyzes the vibrations that arise as a result of the work of the heart.
The advantages of seismocardiography are that it is non-traumatic and does not interfere with the patient’s body. Compared to traditional diagnostic methods, such as electrocardiography or echocardiography, seismic cardiography does not require the use of electrodes or gel, which makes the procedure more comfortable and safe for the patient.
Seismocardiography has a wide range of clinical applications. It can be used to evaluate the contractility of the heart muscle, determine the volume of blood pumped by the heart per beat, and study the function of the heart valves. In addition, seismocardiography makes it possible to detect abnormalities in the functioning of the heart, such as rhythm disturbances or contractile dysfunction.
An important aspect of seismocardiography is the ability to monitor the dynamics of cardiac activity in real time. This allows doctors to monitor changes in heart function under different physical conditions or in response to drug therapy. This approach makes it possible for early detection and control of cardiovascular diseases, which contributes to more effective treatment and prevention of complications.
However, despite all the advantages, seismocardiography is still at the stage of active research and development. Further clinical studies are needed to confirm its effectiveness and compare it with traditional diagnostic methods. However, seismic cardiography promises to be a promising tool in the field of cardiology and may lead to significant improvements in the diagnosis and treatment of cardiovascular diseases.
In conclusion, seismocardiography is an innovative method for diagnosing cardiovascular diseases based on the study of heart oscillations using ultrasonic waves. This non-invasive and non-invasive approach provides valuable information about cardiac function and monitors its dynamics in real time. Although still in its developmental stages, seismocardiography promises to be a promising tool in the field of cardiology, facilitating early detection and more effective treatment of cardiovascular diseases. Further research and development in this area will help to realize its full potential and application in clinical practice.
Seismocardiography is a method of recording electrical impulses of the heart using special sensors installed on the chest. Sensors convert the electrical activity of the heart into sound - heart impulses have a frequency of 1-2 kHz and can be recorded by sensors. The signal is also amplified by special devices, which makes it possible to set the time limits of the signal - the duration of heart activity (contraction of the heart muscle).
Seismic cardiographs are used in cardiology to detect rhythm disturbances, or circulatory disorders (pulse). To do this, a preliminary ultrasound and ECG are required, and after this a number of additional heart examinations are prescribed - an echocardiogram, etc.
The use of a seismic electrograph significantly expands the possibilities for diagnosing pathological processes of the cardiovascular system: heart diseases, defects, low- and extravascular murmurs, as well as the presence of emboli in blood vessels.
Yes, of course, the study can also be used to detect hidden heart failure, bradycardia, arrhythmia, blockade of varying degrees. When studying seismography, it is possible to identify features of contraction of individual chambers of the heart, a near-wall increase in blood pressure, increased blood flow through the main arteries and vessels of internal organs; detect changes in the passive state of the heart muscle.