Title :
Pulse pressure variation estimation based on rank-order filters
Author :
Aboy, M. ; McNames, James ; Thong, T. ; Phillips, C.R. ; Ellenby, M.S. ; Goldstein, B.
Author_Institution :
Biomed. Signal Process. Lab., Portland State Univ., OR, USA
Abstract :
We describe a methodology to estimate the pulse pressure variation ΔPp index from the arterial blood pressure (ABP) signal alone. This eliminates the need for simultaneously acquiring and monitoring airway pressure. The technique uses nonlinear rank-order filters to demodulate the respiratory component modulating the ABP signal. Furthermore, we present a simple mathematical model that can be used to generate synthetic arterial pressure signals with similar time, frequency, and variability characteristics to real ABP signals. Preliminary results on synthetic ABP suggest that rank-based estimation of ΔPp may be as accurate as the current methods, which require simultaneous ABP and airway pressure acquisition and monitoring.
Keywords :
blood pressure measurement; medical signal processing; physiological models; ABP signal modulation; airway pressure acquisition; airway pressure monitoring; arterial blood pressure signal; mathematical model; pulse pressure variation estimation; rank-based estimation; rank-order filters; synthetic arterial pressure signals; Amplitude modulation; Arterial blood pressure; Biomedical engineering; Delay; Filters; Frequency modulation; Hemodynamics; Laboratories; Monitoring; Pulse modulation;
Conference_Titel :
Engineering in Medicine and Biology Society, 2003. Proceedings of the 25th Annual International Conference of the IEEE
Print_ISBN :
0-7803-7789-3
DOI :
10.1109/IEMBS.2003.1280408
