Described herein are cellular scaffolds comprising a cell reservoir, a guide attached to the cell reservoir constructed from one or more biodegradable polymers, and a population of folliculo-genic cells. The cellular scaffolds are useful in growing hair.

Embodiments of the methods and compositions provided herein relate to inducing hair growth in a subject. Some embodiments include screening for agents to modulate hair growth.

Provided is a medium composition for differentiation of a human induced pluripotent stem cell to a dermal papilla precursor cell, a differentiation method, and a use for inducing hair follicle neogenesis using the differentiated dermal papilla precursor cell. Further provided is a method for differentiating a human induced pluripotent stem cell into a dermal papilla precursor cell having hair follicle forming ability and a composition of a dermal papilla precursor cell specific differentiation medium for the above differentiation, and have effectively induced hair follicle neogenesis consisting only of human cells without conventional mouse-human hybrid hair follicles by using the human induced dermal papilla precursor cell and a human induced epidermal precursor cell obtained through the differentiation method. Human hair follicle tissue produced is expected to be useful as a therapeutic method for patients suffering from hair loss by overcoming the limitations of hair loss treatments.

The present invention provides a method for producing regenerated hair follicle primordium that allows production of regenerated hair follicle primordium more easily and in larger amounts compared to conventional production methods.

A method for producing regenerated hair follicle primordium comprising a step of obtaining hair follicle primordium by culturing a first population of cells comprising epithelial cells and a second population of cells comprising mesenchymal cells while allowing them to be in contact is provided. The production method of the present invention is characterized in that at least either one of said first population of cells and said second population of cells has formed cell aggregates before said contact, and a culture support is not used when contacting the other population of cells with said cell aggregate.

Provided herein are methods for directing differentiation of human pluripotent stem cells into a three-dimensional multilayered skin composition comprising an epidermal layer, a dermal layer, and a plurality of cells capable of forming a functional hair follicle. Also provided herein are three-dimensional, multilayered engineered skin compositions and methods of using the same for drug screening, for screening compounds for effects on hair growth, and for other applications.

The present invention relates to compositions and methods utilizing hair follicle derived Non-Bulbar Dermal Sheath cells for use in the treatment of skin.

A system and method for producing hair follicle stem cell 3D organoid using a feeder cell or cell line where the feeder cell or cell line is a dermal endothelial cell, a fibroblast cell or a cell line that is similar to the target cell or the same type of the target cell. The system and method provide rapid culture as well as a long-term sustainable 3D cell or tissue culture environment and also a treatment for hair loss.

A system and method for producing 3D organoid using a feeder cell or cell line where the feeder cell or cell line is an endothelial cell, a fibroblast cell or a cell line that is similar to the target cell or the same type of the target cell. The system and method provide rapid culture as well as a long-term sustainable 3D cell or tissue culture environment.

Provided herein are methods for directing differentiation of human pluripotent stem cells into a three-dimensional multilayered skin composition comprising an epidermal layer, a dermal layer, and a plurality of cells capable of forming a functional hair follicle. Also provided herein are three-dimensional, multilayered engineered skin compositions and methods of using the same for drug screening, for screening compounds for effects on hair growth, and for other applications.

Disclosed are compositions comprising cellular constructs comprising mesenchymal cells and epithelial cells. Also disclosed are methods of making the cellular constructs, methods of hair restoration, and kits. The invention also discloses parallel bio-printing systems and methods for making cellular constructs, such as cellular constructs comprising mesenchymal cells and epithelial cells.