Adaptive blood pressure estimation from wearable PPG sensors using peripheral artery pulse wave velocity measurements and multi-channel blind identification of local arterial dynamics

A method for estimating pulse wave velocity (PWV) using circulatory waveform signals derived from multiple photoplethysmograph (PPG) sensors is described. The method employs two wearable in-line PPG sensors placed at a known distance from one another at the ulnar and digital artery. A technique for calibrating the measured pulse wave velocity to arterial blood pressure using hydrostatic pressure variation is presented. Additionally, a framework is described for estimating local arterial dynamics using PPG waveforms and multi-channel blind system ID. Initial results implementing the method on data derived from a human subject at different arterial pressures is presented. Results show that the method is capable of measuring the changes in arterial PWV that result from fluctuations in mean arterial pressure

[1]  W. Nichols,et al.  McDonald's Blood Flow in Arteries: Theoretical, Experimental and Clinical Principles , 1998 .

[2]  H. Asada,et al.  Estimation of cardiac output from peripheral pressure waveforms using Laguerre model blind system identification , 2004, The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[3]  P. Shaltis,et al.  A hydrostatic pressure approach to cuffless blood pressure monitoring , 2004, The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[4]  H. Harry Asada,et al.  Laguerre-model blind system identification: cardiovascular dynamics estimated from multiple peripheral circulatory signals , 2005, IEEE Transactions on Biomedical Engineering.

[5]  H. Asada,et al.  Calibration of the Photoplethysmogram to Arterial Blood Pressure: Capabilities and Limitations for Continuous Pressure Monitoring , 2005, 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference.

[6]  Carmen C. Y. Poon,et al.  Cuff-less and Noninvasive Measurements of Arterial Blood Pressure by Pulse Transit Time , 2005, 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference.

[7]  T. Togawa,et al.  Continuous estimation of systolic blood pressure using the pulse arrival time and intermittent calibration , 2000, Medical and Biological Engineering and Computing.

[8]  Frank M. Sacks,et al.  Dietary Approaches to Prevent and Treat Hypertension: A Scientific Statement From the American Heart Association , 2006, Hypertension.