A method of manufacturing a multilayered cell sheet of neural crest stem cells (NCSCs), includes: (1) isolating and culturing NCSCs from peripheral nerves; (2) embedding the cultured NCSCs in a hydrogel; (3) culturing the hydrogel comprising the NCSCs embedded therein under stressed culture conditions in which a physical support is applied; and (4) culturing the resulting hydrogel of step (3) under non-stressed culture conditions in which a physical support is removed.

Proposed are a hydrogel containing a polymer nanofiber into which a sulfate group is introduced, and a method for preparing the same. The hydrogel contains polymer compound nanofibers into which a sulfate group is introduced, the polymer compound nanofibers may be connected to each other by a crosslink to form a network structure, and gelling may proceed as water is filled in empty space of the network structure. According to an embodiment, it is possible to provide a hydrogel containing a polymer nanofiber into which a sulfate group is introduced, which is highly utilizable as an artificial extracellular matrix by providing a cell culture scaffold which exhibits high cell adhesiveness and of which the three-dimensional structure can be controlled.

The present invention refers to a process for preparing a biomaterial scaffold said method comprising, (a) providing a hydrogel comprising a fibrin network and a polysaccharide network; (b) subjecting the hydrogel of step a) to a freeze-thawing process to physically crosslink the hydrogel; and (c) subjecting the physically cross-linked hydrogel obtained after conducting the step b), to a lyophilization. The invention also relates to the biomaterial scaffold obtainable by the process as defined above, as well said biomaterial scaffold for its use to partially or completely increase, restore or replace the functional activity of a diseased or damaged oral mucosa.

A rapid method for preparing stem cell and physiologically acceptable matrix compositions for use in tissue and organ repair is described. Compared with previous tissue engineering materials, the stem cell-matrix compositions of the present invention do not require long-term incubation or cultivation in vitro prior to use in in vivo applications. The stem cells can be from numerous sources and may be homogeneous, heterogeneous, autologous, and/or allogeneic in the matrix material. The stem cell-matrix compositions provide point of service utility for the practitioner, wherein the stem cells and matrix can be combined not long before use, thereby alleviating costly and lengthy manufacturing procedures. In addition, the stem cells offer unique structural properties to the matrix composition which improves outcome and healing after use. Use of stem cells obtained from muscle affords contractility to the matrix composition.

Composite biomaterials are described, which can be implanted in the human body in various branches of surgery or on the skin in dermocosmetic surgery, which can be formed as membranes or felts and which have properties of rate of absorption in the body and of hydrophilicity that can be modulated.

Provided are a hydrogel composition with high viscoelasticity and a bioink composition including the hydrogel composition. The hydrogel composition according to an embodiment is composed of natural biocompatible substances and thus is not toxic, but has high viscosity, resulting in high mechanical stability or long persistence. Thus, the hydrogel composition may be usefully utilized as a bioink composition for bioprinting, a support in tissue engineering, or a soft tissue filler.

A laminate of a sheet-shaped cell culture is disclosed, which has excellent operability and is suitable for implantation. A method is disclosed for producing a laminate of a fibrin gel and a sheet-shaped cell culture, including a step of dripping a liquid containing fibrinogen onto an upper surface of a sheet-shaped cell culture, a step of spraying a liquid containing thrombin onto the surface, and a step of forming a fibrin gel layer on the surface by a reaction between fibrinogen and thrombin; and a laminate of a fibrin gel and a sheet-shaped cell culture produced by the method are disclosed.

The present invention provides for collagen and collagen like peptide based hydrogels, corneal implants, filler glue and uses thereof. The invention represents an advancement in the field of hydrogels, corneal implants, filler glue based on collagen and collagen like peptides. The invention discloses collagen and novel collagen like peptides crosslinked with DMTMM and their use in preparation of hydrogel, corneal implant and filler glue which are highly efficacious and robust as compared to existing corneal implants. Further, the invention relates to method of treating corneal defects and diseases.

The present invention relates to a biodegradable injectable composition for bone augmentation comprising fibrin, a contrast agent and calcium salt-containing particles, as well as a method for bone augmentation in a patient suffering from a bone disorder comprising injecting said composition into a non-mineralized or hollow portion of said bone.

Disclosed herein are methods for producing nanocrystalline cellulose and oxidized nanocrystalline cellulose from biomass. Also disclosed are methods for forming materials, and the materials formed from a fibrin matrix that incorporates the nanocrystalline cellulose and/or the oxidized nanocrystalline cellulose.