Disclosed herein are methods for generating satellite cells and compositions including satellite cells.

Methods for using gene expression changes and mutations in neural organoids to identify neural networks that predict the onset of Alzheimer's disease and associated comorbidities are disclosed.

Pluripotent stem cells are suspension-cultured with the undifferentiated state thereof maintained. In suspension culture of pluripotent stem cells, the undifferentiated state is maintained by the presence of a PKC inhibitor, especially, a PKCβ inhibitor, and a tankyrase inhibitor (TNKS inhibitor).

Disclosed is a method of producing reconstructed human skin including forming a three-dimensional hydrogel scaffold matrix by gelling a matrix solution including a type I collagen solution, forming a coating layer by coating the three-dimensional hydrogel scaffold matrix with type IV collagen, and forming an epidermis by seeding epidermal keratinocytes onto the three-dimensional hydrogel scaffold matrix having the coating layer formed thereon and performing culture.

The present invention provides improved methods and media for culturing stem cells and propagating organoids. In particular, the methods provide improved methods for culturing normal and tumour or cancer stem cells and their propagation into organoids. Specifically provided are suspension methods with particular utility for scalable organoid expansion, biobanking, experimental manipulation, miniaturization and imaging based high-throughput drug screening.

Disclosed herein are methods for obtaining endometrial stromal fibroblast cells from pluripotent stem cells, such as induced pluripotent stem cells. The present disclosure also provides methods of obtaining a three-dimensional, multilayered endometrial tissue composition. Methods of using the cells and tissue compositions in drug screening and therapeutic applications are also provided.

The present disclosure relates to a method for controlling freeze-drying of a hydrogel wherein the method comprises adjusting the residual water content of the freeze-dried hydrogel, and to a freeze-dried hydrogel composition comprising nanoscale cellulose and a at least one biomolecule selected from an oligosaccharide or a disaccharide. The present disclosure further concerns the use of the freeze-dried hydrogel composition for cell culturing, a cell culturing scaffold as well as a process for manufacturing a reconstituted hydrogel.

An organ implant, such as a heart implant, including a support structure having a plurality of pores and defining passages configured for the growth of blood vessels; and stem cells from at least one soft tissue source of a patient deposited into the pores of the support structure is described. The implant is configured to repair a portion of an organ of the patient.

A method for freeze-drying a hydrogel composition is disclosed, the method comprising providing the hydrogel composition, wherein the hydrogel composition comprises cellulose nanofibrils and/or cellulose nanocrystals, at least one saccharide, at least one amino acid, and biologics; and freeze-drying the hydrogel composition, thereby obtaining a freeze-dried hydrogel composition.

3D native tissue-derived scaffolding materials are made in various formats, including but not limited to hydrogel, sponge, fibers, microspheres, and films, all of which function to better preserve natural extracellular matrix molecules and to recapitulate the natural tissue environment, thereby effectively guiding tissue regeneration. Tissue-derived scaffolds are prepared by incorporating a homogenized tissue-derived suspension into a polymeric solution of synthetic, natural, or hybrid polymers. Such tissue-derived scaffolds and scaffolding materials have a variety of utilities, including: the creation of 3D tissue models such as skin, bone, liver, pancreas, lung, and so on; facilitation of studies on cell-matrix interactions; and the fabrication of implantable scaffolding materials for guided tissue formation in vivo. The tissue-derived scaffolds and scaffolding materials also provide the opportunity to correlate the functions of extracellular matrix with tissue regeneration and cancer metastasis, for example.