Postoperative Long-Term Monitoring of Mechanical Characteristics in Reconstructed Soft Tissues Using Biocompatible, Immune-Tolerant, and Wireless Electronic Sutures

Lee, Mugeun; Lee, Yeontaek; Choi, Ji Hye; Kim, Hwajoong; Jeong, Daun; Park, Kijun; Kim, Jinho; Park, Jae; Jang, Woo Young; Seo, Jungmok; Lee, Jaehong

doi:10.1021/acsnano.4c00396

ACS Nano

2024

DOI: 10.1021/acsnano.4c00396

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Postoperative Long-Term Monitoring of Mechanical Characteristics in Reconstructed Soft Tissues Using Biocompatible, Immune-Tolerant, and Wireless Electronic Sutures

Mugeun Lee,

Yeontaek Lee,

Ji Hye Choi

et al.

Abstract: Accurate postoperative assessment of varying mechanical properties is crucial for customizing patientspecific treatments and optimizing rehabilitation strategies following Achilles tendon (AT) rupture and reconstruction surgery. This study introduces a wireless, chip-less, and immune-tolerant in vivo strain-sensing suture designed to continuously monitor mechanical stiffness variations in the reconstructed AT throughout the healing process. This innovative sensing suture integrates a standard medical suturing … Show more

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Cited by 2 publications

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Progresses and Perspectives of 1D Soft Sensing Devices for Healthcare Applications

Kim,

Lee

et al. 2024

Adv Funct Materials

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Healthcare sensing devices enable continuous monitoring of diverse biosignals, such as respiration, heartbeat, temperature, inflammation, Electroencephalogram (EEG), and biomechanical movement, contributing to the management of health conditions and early diagnosis of diseases. However, clinically available tools have several limitations for real‐time measurement of biosignals in non‐hospital environments owing to their cumbersome, complex designs, and rigidity. To address these limitations, there has been a growing body of research that explores flexible and soft electronics for healthcare applications, which feature high mechanical compliance and adaptability. Especially, sensing devices based on fiber structures have attracted significant attention due to high flexibility, lightweight design, effective workspace and unique structural adaptability. Moreover, 1D sensing devices can be seamlessly integrated into garments and the human body with complex structures without any unconformity. In this perspective, The fabrication and electrical functionalization of fiber substrates and focus on recent advances in various fiber‐based sensing systems for strain, pressure, temperature, pH, biomarkers, and neural activity is explored. Additionally, biodegradable fiber‐based sensing devices as future healthcare technologies are briefly discussed. Finally, this article provides a summary and outlook on the remaining challenges for current fiber‐based sensing devices.

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Progresses and Perspectives of 1D Soft Sensing Devices for Healthcare Applications

Kim,

Lee

et al. 2024

Adv Funct Materials

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High-strength fibrous sensors with an enhanced aggregate state for biomechanical monitoring of the Achilles tendon

Guo,

Yan,

Gao

et al. 2024

J. Mater. Chem. B

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Postoperative Long-Term Monitoring of Mechanical Characteristics in Reconstructed Soft Tissues Using Biocompatible, Immune-Tolerant, and Wireless Electronic Sutures

Cited by 2 publications

References 50 publications

Progresses and Perspectives of 1D Soft Sensing Devices for Healthcare Applications

Progresses and Perspectives of 1D Soft Sensing Devices for Healthcare Applications

High-strength fibrous sensors with an enhanced aggregate state for biomechanical monitoring of the Achilles tendon

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