The present invention provides a kidney production method including a step of tissue-specifically removing a metanephric mesenchyme of a metanephros of a non-human animal; a step of transplanting, into the metanephros, a kidney precursor cell derived from a non-human animal which is allogeneic or xenogeneic to the non-human animal; and a step of advancing development of the metanephros, which is a step in which the transplanted kidney precursor cell is differentiated and matured to form a part of the kidney.

Described are devices and methods for use in connection with organ replacement or organ assist therapy in a patient.

The invention relates to a process for obtaining a skin substitute, comprising the following steps: a) mixing fibroblasts, endothelial cells and hydrogel of exclusively biological origin; b) incubating the mixture obtained in step a) for a sufficient time and under suitable conditions to obtain a pre-vascularized dermis; c) adding keratinocytes to the pre-vascularized dermis of step b) to obtain a skin substitute; wherein said fibroblasts, endothelial cells and keratinocytes were obtained from pluripotent stem cells.

Embodiments herein described provide antigen-presenting cell-mimetic scaffolds (APC-MS) and use of such scaffolds to manipulating T-cells. More specifically, the scaffolds are useful for promoting growth, division, differentiation, expansion, proliferation, activity, viability, exhaustion, anergy, quiescence, apoptosis, or death of T-cells in various settings, e.g., in vitro, ex vivo, or in vivo. Embodiments described herein further relate to pharmaceutical compositions, kits, and packages containing such scaffolds. Additional embodiments relate to methods for making the scaffolds, compositions, and kits/packages. Also described herein are methods for using the scaffolds, compositions, and/or kits in the diagnosis or therapy of diseases such as cancers, immunodeficiency disorders, and/or autoimmune disorders.

A method for producing a cell population containing cardiomyocytes, including (1) a step of bringing a histone deacetylase inhibitor into contact with a cell population containing cardiomyocytes and cells other than cardiomyocytes, the cell population being obtained by culturing pluripotent stem cells in a medium for cardiomyocyte differentiation, and (2) a step of culturing the cell population is provided by the present invention.

Provided is a transplantation device comprising a hydrogel in which insulin-secreting cells or pancreatic islets are enclosed, wherein the hydrogel is prepared by gelatinizing an alginic acid derivative by a chemical crosslinkage. Thus, a novel transplantation device is provided.

This application relates to cell delivery articles and methods for delivering cells into the body in a manner that allows them to incorporate into surrounding tissue and express cell products. The cell delivery articles are generally capable of maintaining viability of the cells for a period of time that allows such incorporation to occur. Additionally, a cell delivery article may include a bio-ghost coating that prevents the cell delivery article from being recognized by the immune system, and/or minimizes or prevents development of fibrotic tissue which can interfere with nutrients and oxygen entering the cell delivery article and reaching the cells. A cell delivery article may be formulated for delivery by various routes of administration.

A method for promoting conversion of cells into cardiomyocytic tissue is carried out by contacting fibrotic tissue (e.g., scar tissue) with a microRNA oligonucleotide or combination of microRNA oligonucleotides. The methods lead to direct reprogramming of fibroblasts to cardiomyocytes or cardiomyoblasts.

Provided is a dental pretreatment material for dental tissue regeneration by use of dental pulp stem cells, particularly a dental pretreatment material effectively enabling dental tissue regeneration even by use of dental pulp stem cells of middle-aged or older individuals. The dental pretreatment material is characterized by comprising a serine protease, specifically trypsin. The dental pretreatment material comprising trypsin is used as an injection into a root canal before a root canal filling material comprising dental pulp stem cells and an extracellular matrix is inserted into the root canal as an attempt to regenerate a dental pulp and a dentin. The root canal filling material includes an ALK5 inhibitor, a CCR3 antagonist, or a CCL11 neutralizing antibody.

A porous hardened material is provided for various medical applications, including strengthening, supporting, moving, reinforcing, separating, isolating, and/or bulking biological substrates. The hardened material is formed from a liquid composition including a fluorinated copolymer and a biocompatible solvent system. The fluorinated copolymer includes a tetrafluoroethylene (TFE) moiety and a vinyl moiety, wherein the vinyl moiety comprises at least one functional group selected from acetate, alcohol, amine, and amide.