Jie Wu scite author profile

Jie Wu

5Publications

131Citation Statements Received

125Citation Statements Given

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Affiliations

University of Chinese Academy of Sciences, University of Science and Technology of China, Northeastern University

Publications

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Novel fusion peptides deliver exosomes to modify injectable thermo-sensitive hydrogels for bone regeneration

et al. 2022

Materials Today Bio

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Injectable thermo-sensitive hydrogels composed of small intestinal submucosa (SIS) with exosomes derived from bone marrow mesenchymal stem cells (BMSCs) are desired for bone regeneration. However, poor mechanical properties limit the clinical application of SIS hydrogels. Herein, the mechanical properties of SIS hydrogels incorporated with 3-(3,4-dihydroxyphenyl) propionic acid (CA) are assessed. The results show that the mechanical properties of SIS hydrogels are improved. In addition, the retention and stability of exosomes over time at the defect site are also challenges. Fusion peptides are designed by connecting collagen-binding domines (CBDs) of collagen type I/III with exosomal capture peptides CP05 (CRHSQMTVTSRL) directly or via rigid linkers (EAAAK). In vitro experiments demonstrate that fusion peptides are contribute to promoting the positive effect of exosomes on osteogenic differentiation of BMSCs. Meanwhile, the results of hydrogels combining exosomes and fusion peptides in the treatment of rat skull defect models reveal that fusion peptides could enhance the retention and stability of exosomes, thereby strengthen the therapeutic effect for skull defects. Therefore, SIS hydrogels with CA modified by fusion peptides and exosomes appear to be a promising strategy in bone regenerative medicine.

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Particle size dependent rheological property in magnetic fluid

Pei

Xuan

et al. 2016

Journal of Magnetism and Magnetic Materials

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Experiments and Simulations on the Magnetorheology of Magnetic Fluid Based on Fe₃O₄ Hollow Chains

Pei

Xuan

et al. 2019

Langmuir

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This work reports an experiment/simulation combination study on the magnetorheological (MR) mechanism of magnetic fluid based on Fe3O4 hollow chains. The decrease of shear stress versus the increasing magnetic field was observed in a dilute magnetic fluid. Hollow chains exhibited a higher MR effect than pure Fe3O4 hollow nanospheres under a small magnetic field. A modified particle level simulation method including the translational and rotational motion of chains was developed to comprehend the correlation between rheological properties and microstructures. Sloping cluster-like microstructures were formed under a weak external field (24 mT), while vertical column-like microstructures were observed under a strong field (240 mT). The decrease of shear stress was due to the strong reconstruction process of microstructures and the agglomeration of chains near the boundaries. The chain morphology increased the dip angle of microstructures and thus improved the MR effect under a weak field. This advantage made Fe3O4 hollow chains to be widely applied for small and low-power devices in the biomedical field. Dimensionless viscosity as a function of the Mason number was collapsed onto linear master curves. Magnetic fluid in Poiseuille flow in a microfluidic channel was also observed and simulated. A qualitative and quantitative correspondence between simulations and experiments was obtained.

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Magnetically controllable generation of ferrofluid droplets

Yan

Xuan

Ruan

et al. 2015

Microfluid Nanofluid

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Aerodynamic Force Breakdown in Reversible and Irreversible Components by Vortex Force Theory

Kang

Russo²,

Tognaccini³

et al. 2019

AIAA Journal

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Jie Wu

Novel fusion peptides deliver exosomes to modify injectable thermo-sensitive hydrogels for bone regeneration

Particle size dependent rheological property in magnetic fluid

Experiments and Simulations on the Magnetorheology of Magnetic Fluid Based on Fe₃O₄ Hollow Chains

Magnetically controllable generation of ferrofluid droplets

Aerodynamic Force Breakdown in Reversible and Irreversible Components by Vortex Force Theory

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Jie Wu

Novel fusion peptides deliver exosomes to modify injectable thermo-sensitive hydrogels for bone regeneration

Particle size dependent rheological property in magnetic fluid

Experiments and Simulations on the Magnetorheology of Magnetic Fluid Based on Fe3O4 Hollow Chains

Magnetically controllable generation of ferrofluid droplets

Aerodynamic Force Breakdown in Reversible and Irreversible Components by Vortex Force Theory

Contact Info

Product

Resources

About

Experiments and Simulations on the Magnetorheology of Magnetic Fluid Based on Fe₃O₄ Hollow Chains