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Microchannel network hydrogel induced ischemic blood perfusion connection

Author

Listed:
  • Jung Bok Lee

    (Yonsei University College of Medicine)

  • Dae-Hyun Kim

    (Yonsei University College of Medicine)

  • Jeong-Kee Yoon

    (Yonsei University College of Medicine)

  • Dan Bi Park

    (Yonsei University College of Medicine)

  • Hye-Seon Kim

    (Yonsei University College of Medicine)

  • Young Min Shin

    (Yonsei University College of Medicine)

  • Wooyeol Baek

    (Yonsei University College of Medicine)

  • Mi-Lan Kang

    (Yonsei University College of Medicine
    TMD LAB Co. Ltd.)

  • Hyun Jung Kim

    (Yonsei University College of Medicine
    The University of Texas at Austin)

  • Hak-Joon Sung

    (Yonsei University College of Medicine)

Abstract

Angiogenesis induction into damaged sites has long been an unresolved issue. Local treatment with pro-angiogenic molecules has been the most common approach. However, this approach has critical side effects including inflammatory coupling, tumorous vascular activation, and off-target circulation. Here, the concept that a structure can guide desirable biological function is applied to physically engineer three-dimensional channel networks in implant sites, without any therapeutic treatment. Microchannel networks are generated in a gelatin hydrogel to overcome the diffusion limit of nutrients and oxygen three-dimensionally. Hydrogel implantation in mouse and porcine models of hindlimb ischemia rescues severely damaged tissues by the ingrowth of neighboring host vessels with microchannel perfusion. This effect is guided by microchannel size-specific regenerative macrophage polarization with the consequent functional recovery of endothelial cells. Multiple-site implantation reveals hypoxia and neighboring vessels as major causative factors of the beneficial function. This technique may contribute to the development of therapeutics for hypoxia/inflammatory-related diseases.

Suggested Citation

  • Jung Bok Lee & Dae-Hyun Kim & Jeong-Kee Yoon & Dan Bi Park & Hye-Seon Kim & Young Min Shin & Wooyeol Baek & Mi-Lan Kang & Hyun Jung Kim & Hak-Joon Sung, 2020. "Microchannel network hydrogel induced ischemic blood perfusion connection," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14480-0
    DOI: 10.1038/s41467-020-14480-0
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    Cited by:

    1. Sewoom Baek & Hyun-Su Ha & Jeong Su Park & Min Jeong Cho & Hye-Seon Kim & Seung Eun Yu & Seyong Chung & Chansik Kim & Jueun Kim & Ji Youn Lee & Yerin Lee & Hyunjae Kim & Yujin Nam & Sungwoo Cho & Kyub, 2024. "Chip collection of hepatocellular carcinoma based on O2 heterogeneity from patient tissue," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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