Cátia Leitão1, Paulo Antunes, Paulo André, João L Pinto, José M Bastos. 1. aI3N, University of Aveiro bDepartment of Physics, University of Aveiro cInstituto de Telecomunicações, Aveiro dInstituto de Telecomunicações and Department of Electrical and Computer Engineering, Instituto Superior Técnico, Technical University of Lisbon eSchool of Health, University of Aveiro, Portugal.
Abstract
OBJECTIVE: Pulse waveform features related to cardiovascular pathologies and arterial stiffness have been extensively studied, and optical fiber sensors have been studied with an aim to simplify the pulse waveform acquisition in the carotid artery. In this paper, a novel optical fiber sensor to record pulse waveform in the carotid artery has been proposed. METHODS: The pulse waveform optical fiber sensor design, based on fiber Bragg gratings, is presented. The probe was characterized, and its response to controlled waveforms was studied. Finally, tests were performed on human subjects. RESULTS: The developed sensor has a displacement sensitivity of 21.2 pm/μm, with ability to detect the carotid pulse wave in the neck surface, with a resolution of 1.3 mmHg. CONCLUSION: This study revealed a new technological approach for acquisition of the central pulse waveform.
OBJECTIVE: Pulse waveform features related to cardiovascular pathologies and arterial stiffness have been extensively studied, and optical fiber sensors have been studied with an aim to simplify the pulse waveform acquisition in the carotid artery. In this paper, a novel optical fiber sensor to record pulse waveform in the carotid artery has been proposed. METHODS: The pulse waveform optical fiber sensor design, based on fiber Bragg gratings, is presented. The probe was characterized, and its response to controlled waveforms was studied. Finally, tests were performed on human subjects. RESULTS: The developed sensor has a displacement sensitivity of 21.2 pm/μm, with ability to detect the carotid pulse wave in the neck surface, with a resolution of 1.3 mmHg. CONCLUSION: This study revealed a new technological approach for acquisition of the central pulse waveform.
Authors: Camilo A R Díaz; Cátia Leitão; Carlos A Marques; M Fátima Domingues; Nélia Alberto; Maria José Pontes; Anselmo Frizera; Moisés R N Ribeiro; Paulo S B André; Paulo F C Antunes Journal: Sensors (Basel) Date: 2017-10-23 Impact factor: 3.576