Non-mechanical blood pressure monitoring technologies require updated clinical validation frameworks tailored to next-generation cuffless systems.
This review provides a comprehensive overview of non-mechanical blood pressure monitoring technologies and emphasizes the need for updated clinical validation frameworks for cuffless systems.
Abstract Intelligent blood pressure monitoring is transforming hypertension management. In this review, we introduce a novel classification based on measurement principles, categorizing devices into mechanical and non-mechanical methods. We offer fresh insights into the non-mechanical pipeline: advanced sensors, data preprocessing, modeling algorithms, and calibration strategies. We analyze clinical validation standards and limitations, highlighting the pressing need for updated frameworks tailored to next-generation cuffless systems blood pressure, non-mechanical monitoring, deep learning .
Zheng et al. (Fri,) conducted a review in Hypertension. Non-mechanical blood pressure monitoring was evaluated. Non-mechanical blood pressure monitoring technologies require updated clinical validation frameworks tailored to next-generation cuffless systems.