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trophic scar fibrosis by miR-192-5p/IL-17RA/Smad axis [13] ZHANG H M，ZANG C Y，ZHAO W，et al. Exosome de‐
[J]. Stem Cell Res Ther，2021，12（1）：221. rived from mesenchymal stem cells alleviates hypertro‐
[ 2 ] EDWARDS J. Hypertrophic scar management[J]. Br J phic scar by inhibiting the fibroblasts via TNFSF-13/
Nurs，2022，31（20）：S24-S31. HSPG2 signaling pathway[J]. Int J Nanomedicine，2023，
[ 3 ] YIN J Y，ZHANG S M，YANG C，et al. Mechanotransduc‐ 18：7047-7063.
tion in skin wound healing and scar formation：potential [14] BANDOPADHYAY S，MANDAL S，GHORAI M，et al.
therapeutic targets for controlling hypertrophic scarring Therapeutic properties and pharmacological activities of
[J]. Front Immunol，2022，13：1028410. asiaticoside and madecassoside：a review[J]. J Cell Mol
[ 4 ] TAN M，WU D，ZHOU Y，et al. Centella triterpenes Med，2023，27（5）：593-608.
cream as a potential drug for the treatment of hypertrophic [15] LI H M，PENG Q，GUO Y S，et al. Preparation and in vi‐
scar through inhibiting the phosphorylation of STAT3：a tro and in vivo study of asiaticoside-loaded nanoemulsions
network pharmacology analysis and in vitro experiments and nanoemulsions-based gels for transdermal delivery[J].
[J]. J Cosmet Dermatol，2023，22（12）：3511-3519. Int J Nanomedicine，2020，15：3123-3136.
[ 5 ] ZHANG Z Q，FANG C X，KE J F，et al. Microneedle drug [16] YUAN Y X，GUO M J，GU C Y，et al. The role of Wnt/
delivery system based on hyaluronic acid for improving β-catenin signaling pathway in the pathogenesis and treat‐
therapeutic efficiency of hypertrophic scars[J]. Int J Biol ment of multiple myeloma：review[J]. Am J Transl Res，
Macromol，2025，297：139790. 2021，13（9）：9932-9949.
[ 6 ] LIU J Q，XIAO Q，XIAO J N，et al. Wnt/β-catenin signa- [17] RYU Y C，LEE D H，SHIM J，et al. KY19382，a novel ac‐
ling：function，biological mechanisms，and therapeutic tivator of Wnt/β-catenin signaling，promotes hair regrowth
opportunities[J]. Signal Transduct Target Ther，2022，7（1）：3. and hair follicle neogenesis[J]. Br J Pharmacol，2021，178
[ 7 ] 林志琥，韩笑，张孟瑶，等 . 阿司匹林通过调控 Wnt/ （12）：2533-2546.
β-catenin信号通路抑制兔耳增生性瘢痕的生长[J]. 中南 [18] SUN L X，ZHANG X W，WU S，et al. Dynamic interplay
大学学报（医学版），2022，47（6）：698-706. between IL-1 and Wnt pathways in regulating dermal adi‐
[ 8 ] 李隽 . 积雪草苷通过激活 Wnt/β-catenin 信号通路促进 pocyte lineage cells during skin development and wound
糖尿病溃疡愈合的作用机制研究[D]. 南京：南京中医药 regeneration[J]. Cell Rep，2023，42（6）：112647.
大学，2022. [19] JIN R，DENG Z Z，LIU F，et al. Knockdown of ZEB1 in‐
[ 9 ] 金清美，金承龙，金哲虎，等. 马来酸噻吗洛尔滴眼液对 hibits hypertrophic scarring through suppressing the Wnt/
兔耳增生性瘢痕组织形成的影响[J]. 实用皮肤病学杂 β-catenin signaling pathway in a mouse model[J]. Plast
志，2023，16（3）：133-138，142. Reconstr Surg，2024，154（5）：991-1001.
[10] HUANG J，ZHOU X B，XIA L L，et al. Inhibition of hy‐ [20] MULLIN N K，MALLIPEDDI N V，HAMBURG-
pertrophic scar formation with oral asiaticoside treatment SHIELDS E，et al. Wnt/β-catenin signaling pathway regu‐
in a rabbit ear scar model[J]. Int Wound J，2021，18（5）： lates specific lncRNAs that impact dermal fibroblasts and
598-607. skin fibrosis[J]. Front Genet，2017，8：183.
[11] ZHANG T，WANG X F，WANG Z C，et al. Current poten‐ [21] LI C，AN Y，SUN Y，et al. Adipose mesenchymal stem
tial therapeutic strategies targeting the TGF- β/Smad sig‐ cell-derived exosomes promote wound healing through
naling pathway to attenuate keloid and hypertrophic scar the Wnt/β-catenin signaling pathway in dermal fibroblasts
formation[J]. Biomed Pharmacother，2020，129：110287. [J]. Stem Cell Rev Rep，2022，18（6）：2059-2073.
[12] SONG Y J，WANG T，YANG L，et al. EGCG inhibits hy‐ （收稿日期：2025-09-11 修回日期：2026-01-27）
pertrophic scar formation in a rabbit ear model[J]. J Cos‐ （编辑：唐晓莲）
met Dermatol，2023，22（4）：1382-1391.

· 612 · China Pharmacy 2026 Vol. 37 No. 5 中国药房 2026年第37卷第5期

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