Page 161 - Read Online
P. 161
Guess et al. Soft Sci 2023;3:23 https://dx.doi.org/10.20517/ss.2023.17 Page 9 of 9
Circulation 2023;147:e93-e621. DOI PubMed
2. Kim YS, Mahmood M, Lee Y, et al. All-in-one, wireless, stretchable hybrid electronics for smart, connected, and ambulatory
physiological monitoring. Adv Sci 2019;6:1900939. DOI PubMed PMC
3. Inan OT, Migeotte PF, Park KS, et al. Ballistocardiography and seismocardiography: a review of recent advances. IEEE J Biomed
Health Inform 2015;19:1414-27. DOI
4. Guess M, Zavanelli N, Yeo WH. Recent advances in materials and flexible sensors for arrhythmia detection. Materials 2022;15:724.
DOI PubMed PMC
5. Liu Y, Norton JJ, Qazi R, et al. Epidermal mechano-acoustic sensing electronics for cardiovascular diagnostics and human-machine
interfaces. Sci Adv 2016;2:e1601185. DOI PubMed PMC
6. Yang C, Tavassolian N. Combined seismo- and gyro-cardiography: a more comprehensive evaluation of heart-induced chest
vibrations. IEEE J Biomed Health Inform 2018;22:1466-75. DOI PubMed
7. Ha T, Tran J, Liu S, et al. A chest-laminated ultrathin and stretchable e-tattoo for the measurement of electrocardiogram,
seismocardiogram, and cardiac time intervals. Adv Sci 2019;6:1900290. DOI PubMed PMC
8. Lim HR, Kim HS, Qazi R, Kwon YT, Jeong JW, Yeo WH. Advanced soft materials, sensor integrations, and applications of wearable
flexible hybrid electronics in healthcare, energy, and environment. Adv Mater 2020;32:e1901924. DOI PubMed
9. Herbert R, Kim JH, Kim YS, Lee HM, Yeo WH. Soft material-enabled, flexible hybrid electronics for medicine, healthcare, and
human-machine interfaces. Materials 2018;11:187. DOI PubMed PMC
10. He W, Zhang R, Cheng Y, et al. Intrinsic elastic conductors with internal buckled electron pathway for flexible electromagnetic
interference shielding and tumor ablation. Sci China Mater 2020;63:1318-29. DOI
11. Niu L, Wang J, Wang K, et al. High-speed sirospun conductive yarn for stretchable embedded knitted circuit and self-powered
wearable device. Adv Fiber Mater 2023;5:154-67. DOI
12. Liu X, Miao J, Fan Q, et al. Recent progress on smart fiber and textile based wearable strain sensors: materials, fabrications and
applications. Adv Fiber Mater 2022;4:361-89. DOI
13. Nayeem MOG, Lee S, Jin H, et al. All-nanofiber-based, ultrasensitive, gas-permeable mechanoacoustic sensors for continuous long-
term heart monitoring. Proc Natl Acad Sci U S A 2020;117:7063-70. DOI PubMed PMC
14. Presti D, Santucci F, Massaroni C, Formica D, Setola R, Schena E. A multi-point heart rate monitoring using a soft wearable system
based on fiber optic technology. Sci Rep 2021;11:21162. DOI PubMed PMC
15. Zavanelli N, Kim H, Kim J, et al. At-home wireless monitoring of acute hemodynamic disturbances to detect sleep apnea and sleep
stages via a soft sternal patch. Sci Adv 2021;7:eabl4146. DOI PubMed PMC
16. Rienzo M, Rizzo G, Işılay ZM, Lombardi P. SeisMote: a multi-sensor wireless platform for cardiovascular monitoring in laboratory,
daily life, and telemedicine. Sensors 2020;20:680. DOI PubMed PMC
17. Dinh A, Choi Y, Ko SB. A heart rate sensor based on seismocardiography for vital sign monitoring systems. In: 2011 24th Canadian
Conference on Electrical and Computer Engineering(CCECE); 2011 May 8-11; Niagara, ON, Canada. IEEE; 2011. p. 000665-8. DOI
18. Hesar M, Khan D, Seyedsadrkhani NS, Ingebrandt S. Contactless, battery-free, and stretchable wearable for continuous recording of
seismocardiograms. ACS Appl Electron Mater 2021;3:11-20. DOI
19. Sørensen K, Schmidt SE, Jensen AS, Søgaard P, Struijk JJ. Definition of fiducial points in the normal seismocardiogram. Sci Rep
2018;8:15455. DOI PubMed PMC
20. Herbert R, Lim HR, Rigo B, Yeo WH. Fully implantable wireless batteryless vascular electronics with printed soft sensors for
multiplex sensing of hemodynamics. Sci Adv 2022;8:eabm1175. DOI PubMed PMC
21. Herbert R, Elsisy M, Rigo B, et al. Fully implantable batteryless soft platforms with printed nanomaterial-based arterial stiffness
sensors for wireless continuous monitoring of restenosis in real time. Nano Today 2022;46:101557. DOI PubMed PMC
22. Yang S, Ling Y, Wu Q, et al. Lignin-derived porous graphene for wearable and ultrasensitive strain sensors. J Mater Chem C
2022;10:11730-8. DOI
23. Cao H, Thakar SK, Oseng ML, et al. Development and characterization of a novel interdigitated capacitive strain sensor for structural
health monitoring. IEEE Sensors J 2015;15:6542-8. DOI
24. Delalleau A, Josse G, Lagarde JM, Zahouani H, Bergheau JM. A nonlinear elastic behavior to identify the mechanical parameters of
human skin in vivo. Skin Res Technol 2008;14:152-64. DOI PubMed
25. Taebi A, Mansy HA. Time-frequency distribution of seismocardiographic signals: a comparative study. Bioengineering 2017;4:32.
DOI PubMed PMC
