Add to ORKGAbstract The propagation of waves in the arteries is generally described using Fourier analysis in terms of periodic wavetrains formed by the superposition of a mean value and sinusoidal waves at the fundamental frequency (defined by the heart rate) and its harmonics. There is, however, an alternative way to describe waves in the vasculature based upon the method-of-characteristics solution of 1-D conservation laws. This method, wave intensity analysis (WIA), can be used to describe periodic waves but can also be used to describe the propagation of non-periodic waves that cannot be practically described in terms of sinusoidal wavetrains. As a means of demon-strating how WIA defines a wave, we used data gathered in a simple bench-top experim...
Background Wave propagation in arteries can be characterized by the wave-intensity approach. This ha...
Abstract: Coronary artery hemodynamics are very different to that of the systemic arteries; unlike t...
Wave intensity analysis (WIA) is beginning to be applied to the coronary circulation both to better ...
Wave intensity analysis (WIA) was introduced 25 years ago for the study of arterial wave travel and ...
Wave intensity analysis (WIA) was introduced 25 years ago for the study of arterial wave propagation...
Wave intensity analysis (WIA) is a technique developed from the field of gas dynamics that is now be...
Mean pulmonary arterial pressure and pulmonary vascular resistance remain the most common hemodynami...
Wave intensity analysis is a novel technique for assessing wavelet transmission in the cardiovascula...
We present a novel analysis of arterial pulse wave propagation that combines traditional wave intens...
Wave intensity analysis (WIA) is a time-domain technique utilising high fidelity pressure and veloc...
In this issue of Hypertension, Manisty and colleagues1provide, using wave intensity analysis (WIA), ...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
Key Words: pulse wave propagation, arterial system, computational modelling Understanding the physi...
AbstractWave intensity analysis (WIA) is an analytical technique generally used to investigate the p...
An overview of Fourier analysis with applications in ultrasound physics is presented. Parameters use...
Background Wave propagation in arteries can be characterized by the wave-intensity approach. This ha...
Abstract: Coronary artery hemodynamics are very different to that of the systemic arteries; unlike t...
Wave intensity analysis (WIA) is beginning to be applied to the coronary circulation both to better ...
Wave intensity analysis (WIA) was introduced 25 years ago for the study of arterial wave travel and ...
Wave intensity analysis (WIA) was introduced 25 years ago for the study of arterial wave propagation...
Wave intensity analysis (WIA) is a technique developed from the field of gas dynamics that is now be...
Mean pulmonary arterial pressure and pulmonary vascular resistance remain the most common hemodynami...
Wave intensity analysis is a novel technique for assessing wavelet transmission in the cardiovascula...
We present a novel analysis of arterial pulse wave propagation that combines traditional wave intens...
Wave intensity analysis (WIA) is a time-domain technique utilising high fidelity pressure and veloc...
In this issue of Hypertension, Manisty and colleagues1provide, using wave intensity analysis (WIA), ...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
Key Words: pulse wave propagation, arterial system, computational modelling Understanding the physi...
AbstractWave intensity analysis (WIA) is an analytical technique generally used to investigate the p...
An overview of Fourier analysis with applications in ultrasound physics is presented. Parameters use...
Background Wave propagation in arteries can be characterized by the wave-intensity approach. This ha...
Abstract: Coronary artery hemodynamics are very different to that of the systemic arteries; unlike t...
Wave intensity analysis (WIA) is beginning to be applied to the coronary circulation both to better ...