Self-assembly of PEG-PPS polymers and LL-37 peptide nanomicelles improves the oxidative microenvironment and promotes angiogenesis to facilitate chronic wound healing.

Authors:
Shi R; Qiao J; Sun Q; Hou B; Li B and 7 more

Journal:
Bioeng Transl Med

Publication Year: 2023

DOI:
10.1002/btm2.10619

PMCID:
PMC10905545

PMID:
38435813

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Journal Information

Journal Title: Bioeng Transl Med

Detailed journal information not available.

Publication Details

Subject Category: Engineering, Biomedical

Available in Europe PMC: Yes

Available in PMC: Yes

PDF Available: No

Transparency Score

4/6

66.7% Transparent

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Core Indicators

Data Sharing

Evidence found in paper:

"data s1."

Code Sharing

COI Disclosure

Evidence found in paper:

"CONFLICT OF INTEREST STATEMENT The authors declare no conflicts of interest."

Funding Disclosure

Evidence found in paper:

"This work was supported by the Ministry of Science and Technology of the People's Republic of China (82222039, 92168106), Natural Science Foundation of Chongqing (cstc2020jcyj‐msxmX1057), and Key project for clinical innovation of Army Medical University (CX2019LC107). Thanks to Dr. Li Jingguo from Henan Provincial People's Hospital for his help and guidance in PEG–PPS synthesis."

Protocol Registration

Open Access

Paper is freely available to read

Additional Indicators

Replication

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Assessment Info

Tool: rtransparent

OST Version: N/A

Last Updated: Aug 05, 2025