Hepatic‐Accumulated Obeticholic Acid and Atorvastatin Self‐Assembled Nanocrystals Potentiate Ameliorative Effects in Treatment of Metabolic‐Associated Fatty Liver Disease

Lu, Huanfen; Ban, Zhenglan; Xiao, Kai; Sun, Madi; Liu, Yongbo; Chen, Fangman; Shi, Tongfei; Chen, Li; Shao, Dan; Zhang, Ming; Li, Wei

doi:10.1002/advs.202308866

Advanced Science

2024

DOI: 10.1002/advs.202308866

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Hepatic‐Accumulated Obeticholic Acid and Atorvastatin Self‐Assembled Nanocrystals Potentiate Ameliorative Effects in Treatment of Metabolic‐Associated Fatty Liver Disease

Huanfen Lu,

Zhenglan Ban,

Kai Xiao

et al.

Abstract: Exploration of medicines for efficient and safe management of metabolic‐associated fatty liver disease (MAFLD) remains a challenge. Obeticholic acid (OCA), a selective farnesoid X receptor agonist, has been reported to ameliorate injury and inflammation in various liver diseases. However, its clinical application is mainly limited by poor solubility, low bioavailability, and potential side effects. Herein a hepatic‐targeted nanodrugs composed of OCA and cholesterol‐lowering atorvastatin (AHT) with an ideal act… Show more

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Cited by 4 publications

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Non‐Invasive Detection of Early‐Stage Fatty Liver Disease via an On‐Skin Impedance Sensor and Attention‐Based Deep Learning

Wang,

Margolis,

Cho

et al. 2024

Advanced Science

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Early‐stage nonalcoholic fatty liver disease (NAFLD) is a silent condition, with most cases going undiagnosed, potentially progressing to liver cirrhosis and cancer. A non‐invasive and cost‐effective detection method for early‐stage NAFLD detection is a public health priority but challenging. In this study, an adhesive, soft on‐skin sensor with low electrode‐skin contact impedance for early‐stage NAFLD detection is fabricated. A method is developed to synthesize platinum nanoparticles and reduced graphene quantum dots onto the on‐skin sensor to reduce electrode‐skin contact impedance by increasing double‐layer capacitance, thereby enhancing detection accuracy. Furthermore, an attention‐based deep learning algorithm is introduced to differentiate impedance signals associated with early‐stage NAFLD in high‐fat‐diet‐fed low‐density lipoprotein receptor knockout (Ldlr−/−) mice compared to healthy controls. The integration of an adhesive, soft on‐skin sensor with low electrode‐skin contact impedance and the attention‐based deep learning algorithm significantly enhances the detection accuracy for early‐stage NAFLD, achieving a rate above 97.5% with an area under the receiver operating characteristic curve (AUC) of 1.0. The findings present a non‐invasive approach for early‐stage NAFLD detection and display a strategy for improved early detection through on‐skin electronics and deep learning.

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Non‐Invasive Detection of Early‐Stage Fatty Liver Disease via an On‐Skin Impedance Sensor and Attention‐Based Deep Learning

Wang,

Margolis,

Cho

et al. 2024

Advanced Science

View full text Add to dashboard Cite

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A novel chemically engineered multifunctional statin conjugate as self-assembled nanoparticles inhibiting bile acid transporters

Lee,

Yang

et al. 2024

Journal of Controlled Release

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Metabolomics combined with network pharmacology reveals the protective effect of astragaloside IV on alcoholic liver disease

Hao,

Hu,

Zhao

et al. 2024

Phytomedicine

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Hepatic‐Accumulated Obeticholic Acid and Atorvastatin Self‐Assembled Nanocrystals Potentiate Ameliorative Effects in Treatment of Metabolic‐Associated Fatty Liver Disease

Cited by 4 publications

References 62 publications

Non‐Invasive Detection of Early‐Stage Fatty Liver Disease via an On‐Skin Impedance Sensor and Attention‐Based Deep Learning

Non‐Invasive Detection of Early‐Stage Fatty Liver Disease via an On‐Skin Impedance Sensor and Attention‐Based Deep Learning

A novel chemically engineered multifunctional statin conjugate as self-assembled nanoparticles inhibiting bile acid transporters

Metabolomics combined with network pharmacology reveals the protective effect of astragaloside IV on alcoholic liver disease

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