l 2016
US
1041. NANOFIBERS
Abstract
The present disclosure relates to nanofibers. In particular, the present disclosure relates to nanofibers comprising multiple layers and their uses in cell culture and tissue...
The present disclosure relates to nanofibers. In particular, the present disclosure relates to nanofibers comprising multiple layers and their uses in cell culture and tissue...
The invention belongs to the field of medical biological materials capable of being implanted in human bodies, and relates to tissue engineering nerve graft for...
The invention provides a pearl nucleus with the surface covered with a high-molecular tissue engineering scaffold material and a preparing method thereof. The pearl nucleus...
The invention provides a method of culturing pearls by using pearl nucleuses with tissue engineering scaffolds. The method is characterized in that a layer of...
The invention provides a method of culturing pearls by implanting nucleuses after in vitro co-culture of mantle free cells and the tissue engineering scaffold pearl...
The invention discloses oxidized graphene doped nano-fibers, as well as a preparation method and application thereof. The nano-fibers are continuous nano-fibers with smooth surfaces and...
The invention discloses a preparation method of high-flexibility amphoteric ionic hydrogel. By changing the concentration of [2-(methacryloyloxy)ethyl] dimethyl-(3-sulfopropyl) ammonium hydroxide monomers, cross-linking agents and initiators,...
PROBLEM TO BE SOLVED: To provide engineered lung tissue usable for lung transplantation which still remains the only definitive treatment of several lung diseases, including...
The invention discloses a preparation method of high-intensity and antibacterial hydrogel. The method comprises the steps of dissolving maleic acid, acrylamide, carboxymethyl chitosan, a cross-linking...
The invention belongs to the field of cartilage tissue engineering. The invention discloses a tissue engineering cartilage composite scaffold, which is constructed based on an...
The invention discloses a preparation method of a nano-zirconia porous tissue engineering scaffold. The nano-zirconia porous scaffold prepared by the method has a pore size...
The invention discloses a method for renewing an old pearl. The method comprises following steps: firstly removing stains on the surface of the old pearl;...
Devices and methods for stimulating mechanically or electromechanically stem cell monolayer and 3D cultures for tissue engineering applications are disclosed. A bracket is proposed to...
The present invention associates multiplelong non-coding RNA (lncRNA) with key functions of endothelial cells. The lncRNA of the present invention are therefore useful as novel...
The present invention relates to a platform for three-dimensionally culturing microfluid, and a method for aligning gel using the same. More specifically, the present invention...
The invention discloses a promoter regulating expression of genes in non-secreted glandular hair. A nucleotide sequence of the promoter is shown as SEQ ID No:1....
The present invention discloses a goat skeletal muscle-specific gene actin promoter-driven Fat-1 expression vector and a construction method thereof, and the expression vector is constructed...
The invention discloses a method for directionally differentiating human iPSCs (induced pluripotent stem cells)-derived 3D (three-dimensional) retinas by means of induction to obtain retinal ganglion...
The invention relates to a bone tissue engineering stent and a preparation method thereof. The bone tissue engineering stent is prepared from PLGA, isoniazide, rifampicin,...
The invention belongs to the technical field of preparation of biomedical tissue engineering composites. By covalent cross-linking reaction of carboxylic graphene oxide and nano-hydroxyapatite doped...