Salvato in:
Dettagli Bibliografici
Autori principali: Yuan, Mengyao, Liu, Lijia, Ma, Xiaoqing, Geng, Lihua, Wang, Xiuliang, Wu, Ning, Yue, Yang, Zhang, Quanbin, Wang, Jing
Natura: Artículo científico
Lingua:en
Pubblicazione: Carbohydrate polymers 2025
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/40484598/
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1868266193689772034
author Yuan, Mengyao
Liu, Lijia
Ma, Xiaoqing
Geng, Lihua
Wang, Xiuliang
Wu, Ning
Yue, Yang
Zhang, Quanbin
Wang, Jing
author_facet Yuan, Mengyao
Liu, Lijia
Ma, Xiaoqing
Geng, Lihua
Wang, Xiuliang
Wu, Ning
Yue, Yang
Zhang, Quanbin
Wang, Jing
Yuan, Mengyao
Liu, Lijia
Ma, Xiaoqing
Geng, Lihua
Wang, Xiuliang
Wu, Ning
Yue, Yang
Zhang, Quanbin
Wang, Jing
collection PubMed - marine biology
contents Comprehensive analysis of salicylic acid-derivatized alginate: Synthesis, characterization, and anti-acne potential. Yuan, Mengyao Liu, Lijia Ma, Xiaoqing Geng, Lihua Wang, Xiuliang Wu, Ning Yue, Yang Zhang, Quanbin Wang, Jing Salicylic Acid Alginates Animals Acne Vulgaris Rabbits Humans Anti-Bacterial Agents Mice Salicylic acid (SA) is commonly utilized in the early treatment of acne due to its therapeutic efficacy. However, its clinical performance is hindered by limited aqueous solubility, stability and potential for irritation. This study addresses these challenges through deriving SA with alginate (SA-g-Alg) based on a complementary advantages strategy, designed to retain the bioactivity of SA while mitigating its drawbacks. A comprehensive investigation into the structure, physiochemical properties and anti-acne bioactivities of SA-g-Alg was conducted. The results demonstrate that SA-g-Alg achieved a 30-fold higher aqueous stability compared to free SA, along with enhanced moisturizing capacity and reduced cytotoxicity and skin irritation. These enhancements were attributed to the multi-hydroxy and inherent high biocompatibility of alginate. It is noteworthy that SA-g-Alg, with a grafting degree of 24.9 %, exhibited a synergistic effect, as evidenced by its superior lipid regulating ability, comparable antibacterial efficacy and prolonged anti-inflammatory bioavtivity compared to equivalent salicylic acid group in free SA. Moreover, in vivo studies employing a rabbit ear acne model show that a 2 % SA-g-Alg formulation was as effective as a clinical established 2 % SA ointment in therapeutic management of acne. In conclusion, this study underscores the enhanced physiochemical and anti-acne properties of SA-g-Alg, highlighting its potential as a promising therapeutic agent for the treatment of mild to moderate acne.
format Artículo científico
id pubmed_40484598
institution PubMed
language en
publishDate 2025
publisher Carbohydrate polymers
record_format pubmed
spellingShingle Comprehensive analysis of salicylic acid-derivatized alginate: Synthesis, characterization, and anti-acne potential.
Yuan, Mengyao
Liu, Lijia
Ma, Xiaoqing
Geng, Lihua
Wang, Xiuliang
Wu, Ning
Yue, Yang
Zhang, Quanbin
Wang, Jing
Salicylic Acid
Alginates
Animals
Acne Vulgaris
Rabbits
Humans
Anti-Bacterial Agents
Mice
Comprehensive analysis of salicylic acid-derivatized alginate: Synthesis, characterization, and anti-acne potential. Yuan, Mengyao Liu, Lijia Ma, Xiaoqing Geng, Lihua Wang, Xiuliang Wu, Ning Yue, Yang Zhang, Quanbin Wang, Jing Salicylic Acid Alginates Animals Acne Vulgaris Rabbits Humans Anti-Bacterial Agents Mice Salicylic acid (SA) is commonly utilized in the early treatment of acne due to its therapeutic efficacy. However, its clinical performance is hindered by limited aqueous solubility, stability and potential for irritation. This study addresses these challenges through deriving SA with alginate (SA-g-Alg) based on a complementary advantages strategy, designed to retain the bioactivity of SA while mitigating its drawbacks. A comprehensive investigation into the structure, physiochemical properties and anti-acne bioactivities of SA-g-Alg was conducted. The results demonstrate that SA-g-Alg achieved a 30-fold higher aqueous stability compared to free SA, along with enhanced moisturizing capacity and reduced cytotoxicity and skin irritation. These enhancements were attributed to the multi-hydroxy and inherent high biocompatibility of alginate. It is noteworthy that SA-g-Alg, with a grafting degree of 24.9 %, exhibited a synergistic effect, as evidenced by its superior lipid regulating ability, comparable antibacterial efficacy and prolonged anti-inflammatory bioavtivity compared to equivalent salicylic acid group in free SA. Moreover, in vivo studies employing a rabbit ear acne model show that a 2 % SA-g-Alg formulation was as effective as a clinical established 2 % SA ointment in therapeutic management of acne. In conclusion, this study underscores the enhanced physiochemical and anti-acne properties of SA-g-Alg, highlighting its potential as a promising therapeutic agent for the treatment of mild to moderate acne.
title Comprehensive analysis of salicylic acid-derivatized alginate: Synthesis, characterization, and anti-acne potential.
topic Salicylic Acid
Alginates
Animals
Acne Vulgaris
Rabbits
Humans
Anti-Bacterial Agents
Mice
url https://pubmed.ncbi.nlm.nih.gov/40484598/