Abstract: A cell transplanting kit includes a transplant including a cell group and a cell transplanting device. The cell transplanting device includes a needle-shaped portion that extends in a shape of a tube, and an aspiration portion configured to aspirate an interior of the needle-shaped portion. The needle-shaped portion is configured to attract the transplant by aspiration by the aspiration portion and take the transplant into the interior. The aspiration portion is configured to create an aspiration pressure in a range of ?100 kPa to ?0.1 kPa. The transplant includes a protection portion in a form of a gel covering at least a part of the cell group. The transplant has an outer diameter that is greater than or equal to a minimum value of the inner diameter of the needle-shaped portion. The protection portion has a jelly strength of greater than or equal to 100 g.

Abstract: Provided is a hair follicle germ capable of forming a hair shaft-like structure in vitro simply and within a short period of time. A method of producing a hair follicle germ includes: inoculating epithelial cells and mesenchymal cells; maintaining the epithelial cells and the mesenchymal cells in a culture solution in which (a) laminin and entactin, and/or (b) type IV collagen is dispersed; and co-culturing the epithelial cells and the mesenchymal cells in a culture solution to form a hair follicle germ.

Abstract: Provided are a hair follicle germ having excellent hair growth-related properties, a method of producing a hair follicle germ, and a method of activating cells contained in a hair follicle germ. The hair follicle germ includes: epithelial cells; mesenchymal cells; and mesenchymal stem cells. The method of producing a hair follicle germ includes co-culturing epithelial cells, mesenchymal cells, and mesenchymal stem cells to form a hair follicle germ.

Abstract: Provided are a cell-containing hydrogel body and a method of producing the same, which enable simple and effective control of the size of a boundary surface for an interaction between cells. The method of producing a cell-containing hydrogel body includes: forming, under a gas phase, a first hydrogel droplet on a surface of a substrate, the first hydrogel droplet containing first cells being dispersed therein and a first hydrogel polymer; forming, under a gas phase, a second hydrogel droplet on the surface, the second hydrogel droplet containing second cells being dispersed therein and a second hydrogel polymer, the second hydrogel droplet being combined with the first hydrogel droplet; and forming, under a gas phase, a cell-containing hydrogel body on the surface by gelling a hydrogel droplet-combined body including a first droplet portion derived from the first hydrogel droplet and a second droplet portion derived from the second hydrogel droplet.

Abstract: Provided are a method and kit for growth of hair follicle epithelial stem cells on a large scale while maintaining their hair regeneration ability. The culture method for hair follicle epithelial stem cells includes: an accumulating step of forming an accumulation of hair follicle epithelial stem cells by inoculating a cell culture vessel with the hair follicle epithelial stem cells; a mixing step of producing a mixture of an extracellular matrix component and the accumulation of the hair follicle epithelial stem cells by adding the extracellular matrix component to the accumulation of the hair follicle epithelial stem cells; and a culturing step of culturing the hair follicle epithelial stem cells by adding a medium to the mixture. The culture kit for hair follicle epithelial stem cells includes: a cell culture vessel formed of a material having oxygen permeability; an extracellular matrix component; and a medium.

Abstract: The present invention provides a method for manufacturing a regular and high-density regenerated hair follicle primordium aggregation similar to the hair follicle tissue of a mammal in a simple manner. A regenerated hair follicle primordium aggregation manufacturing method of the present invention includes a step of forming hair follicle primordia by inoculating a microwell plate, which includes regularly arranged microwell portions, with mesenchymal cells and epithelial cells and culturing a mixture of the cells while supplying oxygen thereto.

Abstract: Provided is a manufacturing method for a plurality of regenerated hair follicle germs, including a step including simultaneously inoculating a microwell plate including regularly arranged microwell portions with mesenchymal cells and epithelial cells, and co-culturing the mesenchymal cells and the epithelial cells using a medium containing a fibroblast growth factor while supplying oxygen to the mesenchymal cells and the epithelial cells from at least an upper surface and a bottom surface of the microwell plate, to thereby form hair follicle germs in the microwell portions, the microwell plate being formed of a material having oxygen permeability. Also provided is a kit for hair regeneration, including: a microwell plate including regularly arranged microwell portions; and a fibroblast growth factor, wherein the microwell plate is formed of a material having oxygen permeability.

Abstract: Provided are cell-embedded beads for hair regeneration having high hair regeneration activity and a method for producing the same. The cell-embedded beads for hair regeneration contain mesenchymal cells and a biocompatible hydrogel. The method for producing cell-embedded beads for hair regeneration is provided with a cell-embedded cured gel formed body preparation step for preparing a cell-embedded cured gel formed body by preparing liquid droplets containing mesenchymal cells and a biocompatible hydrogel and curing the biocompatible hydrogel, and an aggregation step for suspension-culturing the cell-embedded cured hydrogel formed body and aggregating using the tractive force of the cells.

Abstract: The present invention provides a method for manufacturing a regular and high-density regenerated hair follicle primordium aggregation similar to the hair follicle tissue of a mammal in a simple manner. A regenerated hair follicle primordium aggregation manufacturing method of the present invention includes a step of forming hair follicle primordia by inoculating a microwell plate, which includes regularly arranged microwell portions, with mesenchymal cells and epithelial cells and culturing a mixture of the cells while supplying oxygen thereto.