Butyrate-inserted Ni–Ti layered double hydroxide film for H2O2-mediated tumor and bacteria killing

Donghui Wang; Feng Peng; Jinhua Li; Yuqin Qiao; Qianwen Li; Xuanyong Liu

doi:10.1016/j.mattod.2017.05.001

Butyrate-inserted Ni–Ti layered double hydroxide film for H₂O₂-mediated tumor and bacteria killing

Donghui Wang, Feng Peng, Jinhua Li, Yuqin Qiao, Qianwen Li, Xuanyong Liu^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

81 引用（Scopus）

摘要

The selective tumor- and bacteria-killing property is promising for biomedical implants in directly contact with tumor tissue but still presents a considerable challenge. In this study, a butyrate-inserted Ni–Ti layered double hydroxide film (LDH/Butyrate) is prepared on the surface of nitinol alloy via a simple hydrothermal treatment. The prepared film can selectively inhibit tumor growth and metastasis and bacterial infection by taking advantage of the overproduced H₂O₂ in tumor and infection microenvironments: the pro-tumor and pro-infection molecule H₂O₂ can be consumed by LDH/Butyrate, and cytotoxic butyrate inserted in LDH/Butyrate is subsequently exchanged out. Such a novel endogenous stimuli-responsive platform is expected to prevent tumor overgrowth, metastasis and bacterial infection and will find a promising application in the design of localized drug-eluting systems.

源语言	英语
页（从-至）	238-257
页数	20
期刊	Materials Today
卷	20
期	5
DOI	https://doi.org/10.1016/j.mattod.2017.05.001
出版状态	已出版 - 6月 2017
已对外发布	是

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Wang, D., Peng, F., Li, J., Qiao, Y., Li, Q., & Liu, X. (2017). Butyrate-inserted Ni–Ti layered double hydroxide film for H₂O₂-mediated tumor and bacteria killing. Materials Today, 20(5), 238-257. https://doi.org/10.1016/j.mattod.2017.05.001

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abstract = "The selective tumor- and bacteria-killing property is promising for biomedical implants in directly contact with tumor tissue but still presents a considerable challenge. In this study, a butyrate-inserted Ni–Ti layered double hydroxide film (LDH/Butyrate) is prepared on the surface of nitinol alloy via a simple hydrothermal treatment. The prepared film can selectively inhibit tumor growth and metastasis and bacterial infection by taking advantage of the overproduced H2O2 in tumor and infection microenvironments: the pro-tumor and pro-infection molecule H2O2 can be consumed by LDH/Butyrate, and cytotoxic butyrate inserted in LDH/Butyrate is subsequently exchanged out. Such a novel endogenous stimuli-responsive platform is expected to prevent tumor overgrowth, metastasis and bacterial infection and will find a promising application in the design of localized drug-eluting systems.",

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AU - Wang, Donghui

AU - Peng, Feng

AU - Li, Jinhua

AU - Qiao, Yuqin

AU - Li, Qianwen

AU - Liu, Xuanyong

PY - 2017/6

Y1 - 2017/6

N2 - The selective tumor- and bacteria-killing property is promising for biomedical implants in directly contact with tumor tissue but still presents a considerable challenge. In this study, a butyrate-inserted Ni–Ti layered double hydroxide film (LDH/Butyrate) is prepared on the surface of nitinol alloy via a simple hydrothermal treatment. The prepared film can selectively inhibit tumor growth and metastasis and bacterial infection by taking advantage of the overproduced H2O2 in tumor and infection microenvironments: the pro-tumor and pro-infection molecule H2O2 can be consumed by LDH/Butyrate, and cytotoxic butyrate inserted in LDH/Butyrate is subsequently exchanged out. Such a novel endogenous stimuli-responsive platform is expected to prevent tumor overgrowth, metastasis and bacterial infection and will find a promising application in the design of localized drug-eluting systems.

AB - The selective tumor- and bacteria-killing property is promising for biomedical implants in directly contact with tumor tissue but still presents a considerable challenge. In this study, a butyrate-inserted Ni–Ti layered double hydroxide film (LDH/Butyrate) is prepared on the surface of nitinol alloy via a simple hydrothermal treatment. The prepared film can selectively inhibit tumor growth and metastasis and bacterial infection by taking advantage of the overproduced H2O2 in tumor and infection microenvironments: the pro-tumor and pro-infection molecule H2O2 can be consumed by LDH/Butyrate, and cytotoxic butyrate inserted in LDH/Butyrate is subsequently exchanged out. Such a novel endogenous stimuli-responsive platform is expected to prevent tumor overgrowth, metastasis and bacterial infection and will find a promising application in the design of localized drug-eluting systems.

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Butyrate-inserted Ni–Ti layered double hydroxide film for H2O2-mediated tumor and bacteria killing

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Butyrate-inserted Ni–Ti layered double hydroxide film for H₂O₂-mediated tumor and bacteria killing