Functionalized hydrogel sequentially deliver tannic acid and bioactive probiotics for radiation-induced skin injury
Xiaowen Han, Chen Zhou, Ruiling Xu, Zhimin Jia, Ying Liu, Shan Chen, Wei Tang, Xiaoan Li, Liangxue Zhou, Yong Sun

TL;DR
A new hydrogel delivers tannic acid and probiotics to treat skin injuries caused by radiation therapy, improving healing by reducing harmful molecules and promoting tissue repair.
Contribution
A temporally programmed hydrogel that sequentially delivers tannic acid and probiotics for enhanced radiation-induced skin injury repair.
Findings
The hydrogel achieved a 93.3% ROS clearance rate in early stages of RISI.
L. reuteri release promotes angiogenesis and tissue regeneration in response to wound microenvironment.
Gel/LT outperformed amifostine in RISI repair by reducing oxidative stress and upregulating anti-inflammatory genes.
Abstract
As skin injuries caused by radiotherapy can significantly impede the healing process, it is essential to eliminate the interference of excessive reactive oxygen species (ROS) in the treatment of radiation-induced skin injury (RISI). To address this, we developed a temporally programmed hydrogel designed to enhance RISI repair, which was synthesized through the assembly of Lactobacillus reuteri (L. reuteri) and tannic acid (TA)-loaded hydrogel (Gel/LT). These hydrogels demonstrated satisfactory free radical scavenging capacity in the early stages, achieving an effective clearance rate of 93.3 %, thereby reducing the production of ROS associated with RISI. Furthermore, the L. reuteri encapsulated by metal-polyphenol self-assembly is released at the wound site in response to the wound microenvironment, promoting angiogenesis and tissue regeneration. Both in vitro and in vivo experiments…
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Taxonomy
TopicsEffects of Radiation Exposure · Wound Healing and Treatments · Tissue Engineering and Regenerative Medicine
