Attempts to create an artificial heart were highlighted by our journal one year ago. Now we can say that there…
The article considers the development of the periodic table of ECG phase changes which should reflect the variety of the…
The article aims at describing the theoretical principles of cardiometry as a fundamentally new scientific field which enables the accurate…
The article considers the development of the periodic table of ECG phase changes which should reflect the variety of the…
The article aims at describing the theoretical principles of cardiometry as a fundamentally new scientific field which enables the accurate measurement of the cardiovascular system parameters.
Description of rapid and slow ejection phases in the cardiac cycle.
The response of the cardiovascular system to acupuncture treatment is studied in the present paper.
The article aims at describing the basic principles of cardiometry – a fundamentally new scientific field which enables the accurate measurement of cardiovascular system parameters.
Problems of validation and verification are very critical in medicine. The absence of adequate models describing biophysical processes in the organism leads to using only practical evidence for these purposes that hinders innovations. But advances in medicine require new effective ways to solve these problems. Cardiometry as a new field in cardiology offers a new philosophy of validation and verification based on the classical proof theory borrowed from natural sciences. The aim hereof is to provide a new methodology for validation and verification for cardiovascular diagnostics.
This paper treats general problems of metrology and indirect measurement methods in cardiology. It is aimed at an identification of error estimation criteria for indirect measurements of heart cycle phase durations.
Criteria of identification of individual heart cycle phases according to an ECG curve are described in this paper.
The article aims at describing the theoretical principles of cardiometry as a fundamentally new scientific field which enables the accurate measurement of the cardiovascular system parameters.
Basic criteria of finding the markers of the hemodynamic self-regulation mechanism on an ECG and a Rheogram are described herein. The basics of an analysis of the compensation mechanism responsib le for the maintenance of the hemodynamic parameters within the norms are presented in this paper.