A model using generalized pulse wave velocity, where the pre-ejection period dominates pulse transit time variations, achieves acceptable accuracy for cuffless systolic blood pressure estimation.
This paper investigates the specific contributions of the pre-ejection period (PEP) and pulse transit time (PTT) for blood pressure estimation based on the pulse wave methodology. We show that in short-term physical stress tests, PEP dominates PTT variations raising the question of a suitable blood pressure calibration. A model using a generalized pulse wave velocity achieves acceptable accuracy for systolic blood pressure estimation, given our experimental conditions.
Muehlsteff et al. (Tue,) reported a other. Cuffless estimation of systolic blood pressure using pre-ejection period (PEP) and pulse transit time (PTT) was evaluated on Accuracy of systolic blood pressure estimation. A model using generalized pulse wave velocity, where the pre-ejection period dominates pulse transit time variations, achieves acceptable accuracy for cuffless systolic blood pressure estimation.
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