Close-loop dynamic nanohybrids on collagen-ark with in situ gelling transformation capability for biomimetic stage-specific diabetic wound healing

Zehua Liu; Yunzhan Li; Wei Li; Wenhua Lian; Marianna Kemell; Sami Hietala; Patrícia Figueiredo; Li Li; Ermei Mäkilä; Ming Ma; Jarno Salonen; Jouni T. Hirvonen; Dongfei Liu; Hongbo Zhang; Xianming Deng; Hélder A. Santos

Close-loop dynamic nanohybrids on collagen-ark with in situ gelling transformation capability for biomimetic stage-specific diabetic wound healing

Zehua Liu; Yunzhan Li; Wei Li; Wenhua Lian; Marianna Kemell; Sami Hietala; Patrícia Figueiredo; Li Li; Ermei Mäkilä; Ming Ma; Jarno Salonen; Jouni T. Hirvonen; Dongfei Liu; Hongbo Zhang; Xianming Deng; Hélder A. Santos

Close-loop dynamic nanohybrids on collagen-ark with in situ gelling transformation capability for biomimetic stage-specific diabetic wound healing

Zehua Liu

Yunzhan Li

Wei Li

Wenhua Lian

Marianna Kemell

Sami Hietala

Patrícia Figueiredo

Li Li

Ermei Mäkilä

Ming Ma

Jarno Salonen

Jouni T. Hirvonen

Dongfei Liu

Hongbo Zhang

Xianming Deng

Hélder A. Santos

Katso/Avaa

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Lataukset:

ROYAL SOC CHEMISTRY

doi:10.1039/c8mh01145a

URI

https://pubs.rsc.org/en/Content/ArticleLanding/2019/MH/C8MH01145A#!divAbstract

Näytä kaikki kuvailutiedot

Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2021042825528

Tiivistelmä

Here, an oxidation/acid dual-responsive nanohybrids/ark system was produced. The microfluidics-produced nanohybrids endow the system with an orchestrated cascade from wound detection, reactive oxygen species scavenging, drug release to hydrogel formation. The drug release behavior imitates the dynamic wound healing process, thus rendering an enhanced bio-mimetic regeneration.

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