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A smart adhesive Janus hydrogel for non-invasive cardiac repair and tissue adhesion prevention

Author

Listed:
  • Yutong He

    (Southern Medical University
    Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering)

  • Qian Li

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Pinger Chen

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Qixiang Duan

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Jiamian Zhan

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Xiaohui Cai

    (Southern Medical University)

  • Leyu Wang

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Honghao Hou

    (Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering
    Southern Medical University)

  • Xiaozhong Qiu

    (Southern Medical University
    Guangdong Provincial Key Laboratory of Construction and Detection in Tissue Engineering)

Abstract

Multifunctional hydrogel with asymmetric and reversible adhesion characteristics is essential to handle the obstructions towards bioapplications of trauma removal and postoperative tissue synechia. Herein, we developed a responsively reversible and asymmetrically adhesive Janus hydrogel that enables on-demand stimuli-triggered detachment for efficient myocardial infarction (MI) repair, and synchronously prevents tissue synechia and inflammatory intrusion after surgery. In contrast with most irreversibly and hard-to-removable adhesives, this Janus hydrogel exhibited a reversible adhesion capability and can be noninvasively detached on-demand just by slight biologics. It is interesting that the adhesion behaves exhibited a molecularly encoded adhesion-adaptive stiffening feature similar to the self-protective stress–strain effect of biological tissues. In vitro and in vivo experiments demonstrated that Janus hydrogel can promote the maturation and functions of cardiomyocytes, and facilitate MI repair by reducing oxidative damage and inflammatory response, reconstructing electrical conduction and blood supply in infarcted area. Furthermore, no secondary injury and tissue synechia were triggered after transplantation of Janus hydrogel. This smart Janus hydrogel reported herein offers a potential strategy for clinically transformable cardiac patch and anti-postoperative tissue synechia barrier.

Suggested Citation

  • Yutong He & Qian Li & Pinger Chen & Qixiang Duan & Jiamian Zhan & Xiaohui Cai & Leyu Wang & Honghao Hou & Xiaozhong Qiu, 2022. "A smart adhesive Janus hydrogel for non-invasive cardiac repair and tissue adhesion prevention," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-35437-5
    DOI: 10.1038/s41467-022-35437-5
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    References listed on IDEAS

    as
    1. Séverine Rose & Alexandre Prevoteau & Paul Elzière & Dominique Hourdet & Alba Marcellan & Ludwik Leibler, 2014. "Nanoparticle solutions as adhesives for gels and biological tissues," Nature, Nature, vol. 505(7483), pages 382-385, January.
    2. Bin Xue & Jie Gu & Lan Li & Wenting Yu & Sheng Yin & Meng Qin & Qing Jiang & Wei Wang & Yi Cao, 2021. "Hydrogel tapes for fault-tolerant strong wet adhesion," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    3. Ilya Y. Shadrin & Brian W. Allen & Ying Qian & Christopher P. Jackman & Aaron L. Carlson & Mark E. Juhas & Nenad Bursac, 2017. "Cardiopatch platform enables maturation and scale-up of human pluripotent stem cell-derived engineered heart tissues," Nature Communications, Nature, vol. 8(1), pages 1-15, December.
    4. Mohammad Vatankhah-Varnosfaderani & William F. M. Daniel & Matthew H. Everhart & Ashish A. Pandya & Heyi Liang & Krzysztof Matyjaszewski & Andrey V. Dobrynin & Sergei S. Sheiko, 2017. "Mimicking biological stress–strain behaviour with synthetic elastomers," Nature, Nature, vol. 549(7673), pages 497-501, September.
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    Cited by:

    1. Chaojie Yu & Mingyue Shi & Shaoshuai He & Mengmeng Yao & Hong Sun & Zhiwei Yue & Yuwei Qiu & Baijun Liu & Lei Liang & Zhongming Zhao & Fanglian Yao & Hong Zhang & Junjie Li, 2023. "Chronological adhesive cardiac patch for synchronous mechanophysiological monitoring and electrocoupling therapy," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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