The invention relates to a method for manufacturing a bio-ink by additive deposition, which comprises supplying: a first solution including between 5 and 40 wt. % gelatin; a second solution including between 15 and 35 .wt. % alginate; a third solution including between 1 and 15 wt. % fibrinogen, and optionally living cells in suspension; and creating a mixture including: around 35 to 65 vol. % of the first solution; around 15 to 35 vol. % of the second solution; and around 15 to 35 vol. % of the third solution, said proportions being selected so that they add up to 100%. Said bio-ink allows the additive deposition of objects that can be polymerised by means of a solution including calcium ions and thrombin. Said objects can be incubated and can be used as a substitute for body tissue, for example (with added fibroblasts) as skin substitute.

According to an embodiment, a method of producing artificial skin includes mixing fibroblasts and collagen to form a dermis simulating layer, applying keratinocytes on the dermis simulating layer and culturing the same, culturing the dermis simulating layer in a first medium that is a keratinocyte medium, and culturing the dermis simulating layer that is cultured in the first medium in a second medium including a DMEM medium and a F12 medium.

The present invention relates generally to compositions for wound closure. More specifically, the present invention provides human skin equivalents engineered to express exogenous polypeptides (e.g., antimicrobial polypeptides and keratinocyte growth factor 2) and compositions and methods for making human skin equivalents engineered to express exogenous polypeptides. In addition, the present invention provides methods for treatment of wounds with human skin equivalents engineered to express exogenous polypeptides.

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 bioprinted, three-dimensional, biological skin tissues comprising: a dermal layer comprising dermal fibroblasts; and an epidermal layer comprising keratinocytes, the epidermal layer in contact with the dermal layer to form the three-dimensional, engineered, biological skin tissue. Also disclosed are arrays of engineered skin tissues and methods of making engineered skin tissues.

The invention relates to the use of germ cells for obtaining a micro hair follicle and to the use thereof for evaluating the effect of cosmetic, pharmaceutical or dermatological products and also for the prophylactic or therapeutic treatment of a state of reduced pilosity.

Disclosed herein are improved methods for fabricating bioprinted, three-dimensional, biological tissues. The methods relate to exposures to low temperatures, incubations at low temperatures of various durations, and fabrication in environments without structural cross-linking treatments.

Provided is a novel method capable of producing an artificial skin model. A method for producing an artificial skin model includes: providing coated cells (1), each of which is obtained by covering the surface of a cell (3) with a coating film (2) containing an extracellular matrix component; forming a dermis tissue layer (7), in which the coated cells (1) are laminated, by culturing the coated cells (1); and forming an epidermis layer (12) by arranging epidermis cells (8) on the dermis tissue layer (7).

The present invention relates to the generation of a chondrocyte using mesenchymal stem/progenitor cells obtained from the amniotic membrane of umbilical cord and therapeutic uses of such chondrocytes.

Epidermis equivalents capable of pigmentation include cells derived from the differentiation of matrix cells; reconstructed skins comprised thereof, optionally containing hair follicles, are useful for evaluating the effect of topical cosmetic, pharmaceutical or dermatological products and may also be used for the preparation of grafts suited to be transplanted on mammals, more particularly on human patients such as victims of third-degree burns.