Bin Xu scite author profile

Transplantation of embryonic stem cells (ESCs) can improve cardiac function in treatment of myocardial infarction. The low rate of cell retention and survival within the ischemic tissues makes the application of cell transplantation techniques difficult. In this study, we used a temperature-responsive chitosan hydrogel (as scaffold) combined with ESCs to maintain viable cells in the infarcted tissue. Temperature-responsive chitosan hydrogel was prepared and injected into the infarcted heart wall of rat infarction models alone or together with mouse ESCs. The result showed that the 24-h cell retention and 4 week graft size of both groups was significantly greater than with a phosphate buffered saline control. After 4 weeks of implantation, heart function, wall thickness, and microvessel densities within the infarct area improved in the chitosan + ESC, chitosan, and ESC group more than the PBS control. Of the three groups, the chitosan + ESC performed best. Results of this study indicate that temperature-responsive chitosan hydrogel is an injectable scaffold that can be used to deliver stem cells to infarcted myocardium. It can also increase cell retention and graft size. Cardiac function is well preserved, too.

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Predicting plasticity in disordered solids from structural indicators

Riedl

Ozawa

Patinet

et al. 2020

Phys. Rev. Materials

168

146

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Magnetic nanowires in hexagonally ordered pores of alumina

Metzger

Konovalov²,

Sun³

et al. 2000

IEEE Trans. Magn.

205

110

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Predicting Shear Transformation Events in Metallic Glasses

Falk

et al. 2018

Phys. Rev. Lett.

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Shear transformation is the elementary process for plastic deformation of metallic glasses, the prediction of the occurrence of the shear transformation events is therefore of vital importance to understand the mechanical behavior of metallic glasses. In this Letter, from the view of the potential energy landscape, we find that the protocol-dependent behavior of shear transformation is governed by the stress gradient along its minimum energy path and we propose a framework as well as an atomistic approach to predict the triggering strains, locations, and structural transformations of the shear transformation events under different shear protocols in metallic glasses. Verification with a model Cu_{64}Zr_{36} metallic glass reveals that the prediction agrees well with athermal quasistatic shear simulations. The proposed framework is believed to provide an important tool for developing a quantitative understanding of the deformation processes that control mechanical behavior of metallic glasses.

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Bin Xu

Functional Improvement of Infarcted Heart by Co-Injection of Embryonic Stem Cells with Temperature-Responsive Chitosan Hydrogel

Predicting plasticity in disordered solids from structural indicators

Magnetic nanowires in hexagonally ordered pores of alumina

Predicting Shear Transformation Events in Metallic Glasses

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