The present invention is directed to bioresorbable polymers to be used as bone and tissue adhesives. The present invention is also directed to the synthesis...
The present invention relates to a method for preparing a three-dimensional polymer scaffold (3D-PS) for use in tissue-engineering, said method comprising the subsequent steps of...
The invention belongs to the fields of a micromachining technology and a 3D (Three-Dimensional) micro printing forming technology, and relates to an integrated cell 3D...
A scaffold is provided, the scaffold comprising: at least one inlet tube; at least one outlet tube; and a plurality of porous elongated microtubes, wherein...
The invention discloses a phosphocreatine modified chitosan material, and a preparation method and an application thereof. The method comprises the following steps: dissolving chitosan in...
The invention belongs to the technical field of tissue engineering, and discloses a method for covalently bonding a bioactive layer on the surface of a...
The invention discloses a self-assembled hydrogel based on specific interaction. A preparation method for the self-assembled hydrogel comprises the following steps: grafting micromolecular methacrylicanhydride onto...
The invention discloses a porous compound stent for the bone tissue engineering. The porous compound stent is prepared from the following raw materials in parts...
The invention belongs to the field of biomedical polymer materials, and particularly relates to an iodine-containing polycarbonate/polyester polymer for X-ray development and a preparation method...
The invention relates to a medical titanium mesh provided with a tissue engineering scaffold laminating film and a manufacturing method for the medical titanium mesh,...