The invention relates to a method for amplifying mesenchymal stem cells on a large scale, and discloses an optimized method for amplifying mesenchymal stem cells...
The invention relates to a magnetic glycolic acid-lactic acid copolymer tissue engineering scaffold. The glycolic acid-lactic acid copolymer magnetic tissue engineering scaffold comprises 0.1-80 percent...
The invention discloses a magnetic polylactic acid tissue engineering bracket. A magnet tissue engineering bracket suitable for targeting of a magnetic targeting medicine feeding system...
The invention discloses an injectable tissue engineering cartilage in-vitro establishment device. The device comprises a thermotank, a centrifugal device, which is arranged in the inner...
The present invention relates to a method for culturing neural crest stem cells derived from peripheral nerves, to a neural crest stem cell culture cultured...
The invention provides fibrous hydrogel and a preparation method thereof and particularly relates to fibrous hydrogel of a fiber architecture, which is prepared by compounding...
Subjecting a heterogeneous cell population (one with both stem cells and non-stem cells) to extreme stress selectively eliminated the non-stem cells and resulted in the...
The invention provides a preparation method of a cellulose nano-fiber/polyvinyl alcohol resin composite membrane. The preparation method comprises the following steps of: (1) preparing nano...
Disclosed are methods of forming three dimensional arrays of aligned nanofibers in an open, loose structure of any desired depth. The arrays are formed according...
The present invention describes a composition of an injectable bioresorbable and bioactive material, or injectable bioresorbable and bioactive bone or moulding paste, for tissue engineering....