Continued explorations, rich pipelines

Electrospinning is used to build submicron fibrous matrixes to provide a suitable microenvironment to support rapid cell adhesion and proliferation, and promote tissue regeneration in situ.

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Continued explorations, rich pipelines

Removing immunogenic components from tissues and organs and retaining the natural extracellular matrix scaffold structure to obtain the ideal stent material for use in tissue engineering.

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Continued explorations, rich pipelines

The technology of accumulating 2D planes using a digital model to build 3D structures to achieve precise control of the pore structure of scaffolds to provide suitable mechanical support and a cell growth environment.

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Continued explorations, rich pipelines

Using animal tissue as the raw material, tissue extracts of a specific type are obtained using physical, chemical, biological and other technologies, and imbued with the same or similar structure of tissues at the implant site, and providing new tissue with a suitable environment and nutrition.

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Continued explorations, rich pipelines

The diversity of composition and performance of molecular structures allows us to make use of polymerization, esterification and cross-linking reaction technologies to adjust molecular structures in a controlled way to obtain the ideal functional compound.

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Continued explorations, rich pipelines

Building scaffold structures using light, heat and radiation to facilitate tissue regeneration and repair using principles like hydrogen bonding, electrostatic attraction and mechanical force. Our scaffolds have excellent mechanical, bioactive, degradability, histocompatibility and other characteristics.

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