Thermosensitive Triblock Copolymer for Slow-Release Lubricants under Ocular Conditions

The ocular environment is crucial for a biological lubrication system. An unstable condition of tear film may cause a series of ocular diseases due to serious friction, such as dry eye syndrome, which has drawn extensive attention nowadays. In this study, an in vitro biocompatible superlubricity sys...

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Veröffentlicht in:	ACS applied materials & interfaces 2024-01, Vol.16 (1), p.1675-1687
Hauptverfasser:	Wang, Hongdong, Wang, Qi, Su, Yunjuan, Wang, Junyu, Zhang, Xiacong, Liu, Yuhong, Zhang, Jianhua
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Schlagworte:	Surfaces, Interfaces, and Applications
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creator	Wang, Hongdong Wang, Qi Su, Yunjuan Wang, Junyu Zhang, Xiacong Liu, Yuhong Zhang, Jianhua
description	The ocular environment is crucial for a biological lubrication system. An unstable condition of tear film may cause a series of ocular diseases due to serious friction, such as dry eye syndrome, which has drawn extensive attention nowadays. In this study, an in vitro biocompatible superlubricity system, containing thermogelling copolymers (PCGA–PEG–PCGA) and slow-release lubricant (PEG 300/Tween 80), was constructed. First, the sol–gel transition temperature and gel strength of PCGA–PEG–PCGA were adjusted based on the ocular environment by regulating the length of PCGA blocks. Furthermore, the copolymer hydrogel exhibited a reliable slow-release property within 10 days and showed low cytotoxicity. Then, the superlubricity (coefficient of friction of approximately 0.005) was achieved with its released PEG 300/Tween 80 aqueous solution at the sliding velocity range of 1–100 mm s–1 and pressure range of 10–22 kPa. However, the lubrication behaviors varied, while PEG 300 chains and Tween 80 micelles were demonstrated to form a multilayer and a single layer adsorption structure on the sliding surface, respectively. On the whole, the composite lubrication systems, especially the one composed of Tween 80, showed excellent tribological properties owing to the stable slow-release and full hydration effects under ocular conditions, which hold great potential for improving ocular lubrication and maintaining human visual health.
doi_str_mv	10.1021/acsami.3c12389
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An unstable condition of tear film may cause a series of ocular diseases due to serious friction, such as dry eye syndrome, which has drawn extensive attention nowadays. In this study, an in vitro biocompatible superlubricity system, containing thermogelling copolymers (PCGA–PEG–PCGA) and slow-release lubricant (PEG 300/Tween 80), was constructed. First, the sol–gel transition temperature and gel strength of PCGA–PEG–PCGA were adjusted based on the ocular environment by regulating the length of PCGA blocks. Furthermore, the copolymer hydrogel exhibited a reliable slow-release property within 10 days and showed low cytotoxicity. Then, the superlubricity (coefficient of friction of approximately 0.005) was achieved with its released PEG 300/Tween 80 aqueous solution at the sliding velocity range of 1–100 mm s–1 and pressure range of 10–22 kPa. However, the lubrication behaviors varied, while PEG 300 chains and Tween 80 micelles were demonstrated to form a multilayer and a single layer adsorption structure on the sliding surface, respectively. 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Mater. Interfaces</addtitle><description>The ocular environment is crucial for a biological lubrication system. An unstable condition of tear film may cause a series of ocular diseases due to serious friction, such as dry eye syndrome, which has drawn extensive attention nowadays. In this study, an in vitro biocompatible superlubricity system, containing thermogelling copolymers (PCGA–PEG–PCGA) and slow-release lubricant (PEG 300/Tween 80), was constructed. First, the sol–gel transition temperature and gel strength of PCGA–PEG–PCGA were adjusted based on the ocular environment by regulating the length of PCGA blocks. Furthermore, the copolymer hydrogel exhibited a reliable slow-release property within 10 days and showed low cytotoxicity. Then, the superlubricity (coefficient of friction of approximately 0.005) was achieved with its released PEG 300/Tween 80 aqueous solution at the sliding velocity range of 1–100 mm s–1 and pressure range of 10–22 kPa. 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Mater. Interfaces</addtitle><date>2024-01-10</date><risdate>2024</risdate><volume>16</volume><issue>1</issue><spage>1675</spage><epage>1687</epage><pages>1675-1687</pages><issn>1944-8244</issn><eissn>1944-8252</eissn><abstract>The ocular environment is crucial for a biological lubrication system. An unstable condition of tear film may cause a series of ocular diseases due to serious friction, such as dry eye syndrome, which has drawn extensive attention nowadays. In this study, an in vitro biocompatible superlubricity system, containing thermogelling copolymers (PCGA–PEG–PCGA) and slow-release lubricant (PEG 300/Tween 80), was constructed. First, the sol–gel transition temperature and gel strength of PCGA–PEG–PCGA were adjusted based on the ocular environment by regulating the length of PCGA blocks. Furthermore, the copolymer hydrogel exhibited a reliable slow-release property within 10 days and showed low cytotoxicity. 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title	Thermosensitive Triblock Copolymer for Slow-Release Lubricants under Ocular Conditions
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