Rhythmic changes of blood pressure, heart rate, and other cardiovascular measures have drawn the attention of several investigators, since these oscillations can shed light onto the activity of the underlying control network. The overwhelming proportion of circulatory variations, however, are not linear, i.e., they do not consist of perfectly rhythmic components. Thus, these fluctuations are more adequately analysed by non-linear techniques, most of which are adopted from chaos theory. A spotlight issue of ‘Cardivascular Research’ (Vol. 31, 1996), focused on chaos in the cardiovascular system. This current review outlines today’s understanding of this field by presenting the major discoveries and developments which have taken place since th...
Chronic high blood pressure can cause damages to the cardiovascular system. Linear analysis of hyper...
Biomedical signals often vary in a complex and irregular manner. Analysis of variability in such sig...
Signals derived from the human cardiovascular system are well known to exhibit highly complex, nearl...
A number of control mechanisms are comprised within blood pressure regulation, ranging from events o...
Abstract: Several coupled and nonlinear controlling mechanisms are involved in the regulation of blo...
Abstract:Heart rate variability (HRV) is the physiological phenomenon of variation in the time inter...
Chaotic systems are nature variable, which serve as important mechanism for adaptability and flexibi...
Abstract: Heart period continually varies from beat to beat as a result of autonomic effects on the ...
Several coupled and nonlinear controlling mechanisms are involved in the regulation of blood pressur...
Nature is full of nonlinearities, responsible for a great variety of responses in natural systems. P...
This book reports on the latest advances in complex and nonlinear cardiovascular physiology aimed at...
The human cardiovascular system (CVS) is a highly complex mechanism. Signals derived from it are dif...
Abstract: Physiological systems such as the cardiovascular system are capable of five kinds of behav...
The heart rate influence on chaotic dynamics of the model of interaction between cardiovascular and ...
Restricted until 16 Dec. 2010.Heart dynamics and heart rate variability, as well as their characteri...
Chronic high blood pressure can cause damages to the cardiovascular system. Linear analysis of hyper...
Biomedical signals often vary in a complex and irregular manner. Analysis of variability in such sig...
Signals derived from the human cardiovascular system are well known to exhibit highly complex, nearl...
A number of control mechanisms are comprised within blood pressure regulation, ranging from events o...
Abstract: Several coupled and nonlinear controlling mechanisms are involved in the regulation of blo...
Abstract:Heart rate variability (HRV) is the physiological phenomenon of variation in the time inter...
Chaotic systems are nature variable, which serve as important mechanism for adaptability and flexibi...
Abstract: Heart period continually varies from beat to beat as a result of autonomic effects on the ...
Several coupled and nonlinear controlling mechanisms are involved in the regulation of blood pressur...
Nature is full of nonlinearities, responsible for a great variety of responses in natural systems. P...
This book reports on the latest advances in complex and nonlinear cardiovascular physiology aimed at...
The human cardiovascular system (CVS) is a highly complex mechanism. Signals derived from it are dif...
Abstract: Physiological systems such as the cardiovascular system are capable of five kinds of behav...
The heart rate influence on chaotic dynamics of the model of interaction between cardiovascular and ...
Restricted until 16 Dec. 2010.Heart dynamics and heart rate variability, as well as their characteri...
Chronic high blood pressure can cause damages to the cardiovascular system. Linear analysis of hyper...
Biomedical signals often vary in a complex and irregular manner. Analysis of variability in such sig...
Signals derived from the human cardiovascular system are well known to exhibit highly complex, nearl...