Abstract
SIGNIFICANCE: Continuous blood pressure (BP) monitoring is crucial for maintaining hemodynamic stability and complication prevention. Near-infrared spectroscopy photoplethysmography (NIRS-PPG) offers a noninvasive alternative to arterial lines (A-line) for continuous BP monitoring. AIM: We aim to assess whether a wearable NIRS-PPG device (FlexNIRS) can estimate mean arterial pressure (MAP) using linear and Gaussian process regression (GPR) models. APPROACH: NIRS-PPG signals were recorded bilaterally in 10 patients undergoing carotid endarterectomy. Subject-specific linear regression and GPR models predicted MAP based on heart rate and peak features of the NIRS-PPG signal. A-line readings served as the reference. RESULTS: All models achieved strong performance with R2 ≥ 0.75 . The two-feature GPR model improved accuracy ( R2 = 0.78 ), whereas adding a third feature further enhanced performance ( R2 = 0.82 ). Improvements in R2 , mean absolute error, and root mean squared error were statistically significant. The highest accuracy was observed contralateral to the surgical site using the 2.8-cm source-detector separation. CONCLUSIONS: This preliminary study supports the feasibility of noninvasive MAP estimation using NIRS-PPG and machine learning. The approach may provide a practical alternative for BP monitoring after A-line removal in postoperative and intensive care unit settings.