Fei Bi scite author profile

Abstract:The glucose-sensitive drug delivery systems based on glucose oxidase (GOD), which exhibit highly promising applications in diabetes therapy, have attracted much more interest in recent years. The self-regulated drug delivery systems regulate drug release by glucose concentration automatically and continuously to control the blood glucose level (BGL) in normoglycemic state. This review covers the recent advances at the developments of GOD-based glucose-sensitive drug delivery systems and their in vivo applications for diabetes treatment. The applications of GOD-immobilized platforms, such as self-assembly layer-by-layer (LbL) films and polymer vesicles, cross-linking hydrogels and microgels, hybrid mesoporous silica nanoparticles, and microdevices fabricated with insulin reservoirs have been surveyed. The glucose-sensitive drug delivery systems based on GOD are expected to be a typical candidate for smart platforms for potential applications in diabetes therapy.

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Boronic Acid as Glucose-Sensitive Agent Regulates Drug Delivery for Diabetes Treatment

Huang

Liu

et al. 2017

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In recent years, glucose-sensitive drug delivery systems have attracted considerable attention in the treatment of diabetes. These systems can regulate payload release by the changes of blood glucose levels continuously and automatically with potential application in self-regulated drug delivery. Boronic acid (BA), especially phenylboronic acid (PBA), as glucose-sensitive agent has been the focus of research in the design of glucose-sensitive platforms. This article reviews the previous attempts at the developments of PBA-based glucose-sensitive drug delivery systems regarding the PBA-functionalized materials and glucose-triggered drug delivery. The obstacles and potential developments of glucose-sensitive drug delivery systems based on PBA for diabetes treatment in the future are also described. The PBA-functionalized platforms that regulate drug delivery induced by glucose are expected to contribute significantly to the design and development of advanced intelligent self-regulated drug delivery systems for treatment of diabetes.

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Recent Advances in Phenylboronic Acid-Based Gels with Potential for Self-Regulated Drug Delivery

et al. 2019

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Glucose-sensitive drug platforms are highly attractive in the field of self-regulated drug delivery. Drug carriers based on boronic acid (BA), especially phenylboronic acid (PBA), have been designed for glucose-sensitive self-regulated insulin delivery. The PBA-functionalized gels have attracted more interest in recent years. The cross-linked three-dimensional (3D) structure endows the glucose-sensitive gels with great physicochemical properties. The PBA-based platforms with cross-linked structures have found promising applications in self-regulated drug delivery systems. This article summarizes some recent attempts at the developments of PBA-mediated glucose-sensitive gels for self-regulated drug delivery. The PBA-based glucose-sensitive gels, including hydrogels, microgels, and nanogels, are expected to significantly promote the development of smart self-regulated drug delivery systems for diabetes therapy.

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One-step, high-yield synthesis of g-C₃N₄ nanosheets for enhanced visible light photocatalytic activity

et al. 2019

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Fei Bi

Glucose Oxidase-Based Glucose-Sensitive Drug Delivery for Diabetes Treatment

Boronic Acid as Glucose-Sensitive Agent Regulates Drug Delivery for Diabetes Treatment

Recent Advances in Phenylboronic Acid-Based Gels with Potential for Self-Regulated Drug Delivery

One-step, high-yield synthesis of g-C₃N₄ nanosheets for enhanced visible light photocatalytic activity

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Fei Bi

Glucose Oxidase-Based Glucose-Sensitive Drug Delivery for Diabetes Treatment

Boronic Acid as Glucose-Sensitive Agent Regulates Drug Delivery for Diabetes Treatment

Recent Advances in Phenylboronic Acid-Based Gels with Potential for Self-Regulated Drug Delivery

One-step, high-yield synthesis of g-C3N4 nanosheets for enhanced visible light photocatalytic activity

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One-step, high-yield synthesis of g-C₃N₄ nanosheets for enhanced visible light photocatalytic activity