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Literature DB >> 35519242

Respiratory and heart rate monitoring using an FBG 3D-printed wearable system.

Cátia Tavares^1,2, Cátia Leitão^1,2, Daniela Lo Presti³, M F Domingues², Nélia Alberto², Hugo Silva^4,5, Paulo Antunes^1,2.

Abstract

This work proposes a 3D-printed sensor based on fiber Bragg grating (FBG) technology for respiratory rate (RR) and heart rate (HR) monitoring. Each sensor is composed of a single FBG fully encapsulated into a 3D-printable Flexible, during the printing process. Sensors with different material thicknesses and infill densities were tested. The sensor with the best metrological properties was selected and preliminary assessed in terms of capability of monitoring RR and HR on three users. Preliminary results proved that the developed sensor can be a valuable easy-to-fabricate solution, with high reproducibility and high strain sensitivity to chest wall deformations due to breathing and heart beating.

Entities: Chemical

Year: 2022 PMID： 35519242 PMCID： PMC9045939 DOI： 10.1364/BOE.452115

Source DB: PubMed Journal: Biomed Opt Express ISSN： 2156-7085 Impact factor: 3.562

14 in total

1. Design Principles for Rapid Prototyping Forces Sensors using 3D Printing.

Authors: Samuel B Kesner; Robert D Howe
Journal: IEEE ASME Trans Mechatron Date: 2011-07-21 Impact factor: 5.303

2. Fiber bragg grating sensor based device for simultaneous measurement of respiratory and cardiac activities.

Authors: K Chethana; A S Guru Prasad; S N Omkar; S Asokan
Journal: J Biophotonics Date: 2016-03-04 Impact factor: 3.207

3. A High-Precision and Miniature Fiber Bragg Grating-Based Force Sensor for Tissue Palpation During Minimally Invasive Surgery.

Authors: Changhu Lv; Shuxin Wang; Chaoyang Shi
Journal: Ann Biomed Eng Date: 2019-11-04 Impact factor: 3.934

4. A submillimetric 3-DOF force sensing instrument with integrated fiber Bragg grating for retinal microsurgery.

Authors: Xingchi He; James Handa; Peter Gehlbach; Russell Taylor; Iulian Iordachita
Journal: IEEE Trans Biomed Eng Date: 2014-02 Impact factor: 4.538

5. Accuracy of wearable heart rate monitors in cardiac rehabilitation.

Authors: Muhammad Etiwy; Zade Akhrass; Lauren Gillinov; Alaa Alashi; Robert Wang; Gordon Blackburn; Stephen M Gillinov; Dermot Phelan; A Marc Gillinov; Penny L Houghtaling; Hoda Javadikasgari; Milind Y Desai
Journal: Cardiovasc Diagn Ther Date: 2019-06

Respiratory and heart rate monitoring using an FBG 3D-printed wearable system.

1. Design Principles for Rapid Prototyping Forces Sensors using 3D Printing.

2. Fiber bragg grating sensor based device for simultaneous measurement of respiratory and cardiac activities.

3. A High-Precision and Miniature Fiber Bragg Grating-Based Force Sensor for Tissue Palpation During Minimally Invasive Surgery.

4. A submillimetric 3-DOF force sensing instrument with integrated fiber Bragg grating for retinal microsurgery.

5. Accuracy of wearable heart rate monitors in cardiac rehabilitation.

6. Fiber-Optic Based Smart Textiles for Real-Time Monitoring of Breathing Rate.

7. Design and Evaluation of FBG-Based Tension Sensor in Laparoscope Surgical Robots.

8. Cardio-Respiratory Monitoring in Archery Using a Smart Textile Based on Flexible Fiber Bragg Grating Sensors.

9. A multi-point heart rate monitoring using a soft wearable system based on fiber optic technology.

10. Gait Shear and Plantar Pressure Monitoring: A Non-Invasive OFS Based Solution for e-Health Architectures.

Review 1. Precordial Vibrations: A Review of Wearable Systems, Signal Processing Techniques, and Main Applications.

2. A Soft and Skin-Interfaced Smart Patch Based on Fiber Optics for Cardiorespiratory Monitoring.