Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Compositions and methods for producing reconstituted human skin and/or hair follicles in situ are provided. The method for producing the skin is unique in that tissue culture expanded cells including multipotent cells such as neonatal cells as well as cultured epidermal and dermal cells are immediately placed on a substrate such as a membrane and then the membrane with adherent cells is placed on a skin wound. Examples demonstrate formation of hair follicles in situ.

Abstract: Methods and compositions for increasing trichogenicity of cells in culture are provided. One embodiment provides culturing dissociated mammalian dermal cells in vitro in the presence of an effective amount of one or more sonic hedgehog (Shh) pathway agonists to increase the trichogenicity of the dissociated mammalian dermal cells compared to untreated dissociated mammalian dermal cells. The cell culture optionally includes epidermal cells. Preferred Shh agonists include, but are not limited to CUR-0236715 and CUR-0201365 available from Curis, Inc. Trichogenicity is measured using the Aderans Hair Patch Assay™. The cultured dermal cells can be maintained in culture in the presence of the one or more Shh agonists for at least 1 to 7 or more days prior to harvest. The treated, cultured dermal cells can be used to treat hair loss in a mammalian subject, preferably a human, by implanting them in an effective amount to induce hair follicle formation.

Abstract: Methods for increasing trichogenic activity of populations of dermal cells by inducing local trauma to skin tissue that serves as a source of the dermal cells are provided. Methods for obtaining dermal cells with increased trichogenic activity and for using the disclosed dermal cells to implant into a mammalian host at a site of desired follicle generation are also provided.

Abstract: Biomarkers for identifying trichogenic cells have been identified. The biomarkers include microRNA as wells as mRNA and proteins. Certain biomarkers are upregulated in trichogenic cells compared to non-trichogenic cells; whereas, other biomarkers are down-regulated in trichogenic cells compared to non-trichogenic cells. The cells can be dermal cells, epidermal cells, or a combination thereof. Preferably the cells are mammalian, more preferably the cells are human. One embodiment provides a method for selecting trichogenic cells by assaying the cells for expression of one or more biomarkers for trichogenicity, and selecting the cells having increased expression of the one or more biomarkers relative to a control, wherein increased expression of the a biomarker in the cells is indicative of trichogenicity.

Abstract: Methods for increasing trichogenic activity of populations of dermal cells by inducing local trauma to skin tissue that serves as a source of the dermal cells are provided. Methods for obtaining dermal cells with increased trichogenic activity and for using the disclosed dermal cells to implant into a mammalian host at a site of desired follicle generation are also provided.

Abstract: The present invention provides fluid and material delivery methods and devices for practicing the methods. The invention provides a method of delivering cellular material comprising injecting the cellular material into a subject such that the injected cells retain their inherent morphologic characteristics upon injection. The method comprises the steps of aspirating the cellular material into a fluid delivery device which incorporates a syringe arrangement. The cellular material is aspirated into the main body of the syringe until the desired amount of a material has filled the syringe body. The needle of the fluid delivery device is then inserted into the skin of a subject at an angle about parallel to the skin until a desired depth has been reached. The cellular material is then injected in the subject until the desired volume of material has been injected. The needle of the device is then rotated approximately 45 to 90 degrees and the needle is removed from the injection site.

Abstract: The present invention is a method of forming egressing hair shafts comprising making a wound in the skin and placing hair follicle progenitor cells on the wound, wherein an egressing hair shaft is formed from the hair follicle progenitor cells. The present invention is also a method of forming new skin comprising making a wound in the skin and placing skin forming cells on the wound, wherein new skin is formed from the skin forming cells.

Abstract: A method assay for rapidly and reproducibly generating hair follicles from dissociated epithelial and mesenchymal cells is disclosed. The method serves both as a tool for measuring the trichogenic (i.e., hair growth-inducing) property of cells and for studying the mechanisms dissociated cells employ to assemble an organ. In a method of this application dissociated cells, isolated from newborn mouse skin, are injected into adult mouse truncal skin, hair follicles develop. This process involves the aggregation of epithelial cells to form clusters which are sculpted by apoptosis to generate “infundibular cysts”. From the “infundibular cysts” hair germs form followed by follicular buds and then pegs which grow asymmetrically to differentiate into cycling mature pilosebaceous structures. Using various techniques, exposure of the “infundibular cysts” by puncturing, piercing, or scratching the skin and, in an approach, covering the exposed cysts with a wound dressing material produced egressing hair follicles.

Abstract: This invention relates to pouch or pledget delivery system having an apertured film or fabric covering which assists in evenly and safely distributing topical medicaments.