Yaguang Huo scite author profile

Yaguang Huo

3Publications

1Citation Statement Received

12Citation Statements Given

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Chang'an University

Publications

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Fabrication and in-vitro experimental study on an implantable controlled drug delivery system with micro-hole for zero-order release

Gao

Chen

Huo

et al. 2020

Mater. Res. Express

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Drug delivery is essential for effective therapy. Implantable controlled drug delivery systems (ICDDS) have become a research focus due to the associated advantages of continuous, long-duration, sustained delivery and the reduced side effects associated with this form of drug release. ICDDS can be designed to release drugs in accordance with different demands. Zero-order drug release, which involves a theoretically linear relationship between the cumulative amount of released drug and the amount of time taken for the release, is an important drug release rule for the control of chronic diseases. However, the release process is influenced by various parameters and zero-order drug release is therefore difficult to achieve. In this study, to achieve zero-order drug release, an implantable controlled drug delivery system with micro-hole (ICDDSM) was designed and fabricated with degradable polymer. Based on micro electromechanical systems (MEMS) technology, ICDDSM matrixes with circular and honeycomb structures were fabricated using the hot-press shaping method at a temperature of 75 °C, 30 N of force which were maintained for 150 s. A micro-hole with a diameter 100 μm was formed using a femto-second laser. 5-fluorouracil was loaded into the ICDDSM and in-vitro experiments were conducted in 37 °C normal saline solution. The experimental results showed that the 20 mg of loaded 5-fluorouracil was released in 720 h with the relationship between the cumulative amount of released drug and the drug release time tending predominantly toward linearity. Zero-order drug release was thus achieved. This study proposed a new degradable ICDDS structure to achieve zero-order drug release, and the hot-press shaping process proved feasible for the efficient fabrication of the lower-cost polymer structure.

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Study on the Stress Relaxation Property of Degradable Polymer PLGA

Gao¹,

Huo²

2015

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Multi-Microstructures are designed as the carriers of controlled drug delivery system, and the degradable polymer is the preferred material. When the deform method is hot embossing, the viscoelasticity of degradable polymer becomes one of the important parameters which affect the quality of microstructure. So the viscoelasticity and stress relaxation property of polymer is researched in this paper by experiment, and the numerical material model was established based on the generalized Maxwell model with 5 units by the Finite Element Method, The simulation results show that the model is reasonable and give the base for the research of optimum forming parameters of microstructure forming by hot embossing.

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The Model of Degradable Polymer PLGA Deformed by Hot Embossing Method

Gao¹,

Ge²,

Huo³

2015

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A novel drug delivery microsystem is proposed in this paper, which consists of the microstructure for drug loading and the bonding membrane with microholes for release rate controlling. The forming process of microstructure by hot embossing method was researched. For the microstructure was fabricated by degradable polymer which possess the viscoelastic property, the numerical material model was established based on the generalized Maxwell model with 5 units, and the relaxation parameters in this model were confirmed by the stress relaxation experiment. The simulation results show that the model is reasonable and give the base for the optimum parameters research by hot embossing.

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Yaguang Huo

Fabrication and in-vitro experimental study on an implantable controlled drug delivery system with micro-hole for zero-order release

Study on the Stress Relaxation Property of Degradable Polymer PLGA

The Model of Degradable Polymer PLGA Deformed by Hot Embossing Method

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