Described herein are methods and compositions related to induced alveolar epithelial type 2 cells (iAEC2s), e.g., artificially-produced epithelial type 2 cells.

Methods and uses of biological tissues for various stent and other medical applications. In an exemplary embodiment of a method of processing a tissue of the present disclosure, the method comprises the steps of acquiring a mammalian tissue comprising at least a portion of a pulmonary region tissue, selecting a sample of pulmonary region tissue from the at least a portion of a pulmonary region tissue, and fixing the sample of pulmonary region tissue using a fixative, resulting in a fixed sample. In at least one embodiment, the step of selecting a sample of pulmonary region tissue comprises selecting a sample of pulmonary ligament tissue from the mammalian tissue.

Methods and uses of biological tissues for various stent and other medical applications. In an exemplary embodiment of a method of processing a tissue of the present disclosure, the method comprises the steps of acquiring a mammalian tissue comprising at least a portion of a pulmonary region tissue, selecting a sample of pulmonary region tissue from the at least a portion of a pulmonary region tissue, and fixing the sample of pulmonary region tissue using a fixative, resulting in a fixed sample. In at least one embodiment, the step of selecting a sample of pulmonary region tissue comprises selecting a sample of pulmonary ligament tissue from the mammalian tissue.

Described herein are methods and compositions for use in expanding alveolar epithelial cells. The methods may include the use of three-dimensional substrates and improved techniques for expansion of the cells. The improved composition for culturing alveolar epithelial cells may include at least one or more of the following: a TGF- pathway inhibitor; a Wnt pathway activator; a ROCK inhibitor; an epidermal growth factor (EGF); a keratinocyte growth factor (KGF); and a fetal bovine serum.

Various aspects described herein provide methods of generating alveolar or alveolar/airway organoids from a population of lung cells to differentiate into alveolar or alveolar/airway organoids. Also provided herein are methods and compositions for treating lung disease comprising transplantation of the alveolar or alveolar/airway organoids, or a cell isolated therefrom to a subject.

Various aspects described herein provide methods of generating alveolar or alveolar/airway organoids from a population of lung cells to differentiate into alveolar or alveolar/airway organoids. Also provided herein are methods and compositions for treating lung disease comprising transplantation of the alveolar or alveolar/airway organoids, or a cell isolated therefrom to a subject.

The invention disclosed herein generally relates to methods and systems for growing, expanding and/or obtaining 3-dimensional lung-like epithelium comprising cells having SOX9 protein activity and SOX2+ protein activity. In particular, the invention disclosed herein relates to methods and systems for growing human cells having SOX9 protein activity and SOX2+ protein activity in vitro, and for promoting pluripotent stem cell derived ventral-anterior foregut spheroid tissue into 3-dimensional lung-like epithelium comprising cells having SOX9 protein activity and SOX2+ protein activity.

The invention disclosed herein generally relates to methods and systems for growing, expanding and/or obtaining 3-dimensional lung-like epithelium comprising cells having SOX9 protein activity and SOX2+ protein activity. In particular, the invention disclosed herein relates to methods and systems for growing human cells having SOX9 protein activity and SOX2+ protein activity in vitro, and for promoting pluripotent stem cell derived ventral-anterior foregut spheroid tissue into 3-dimensional lung-like epithelium comprising cells having SOX9 protein activity and SOX2+ protein activity.

Provided herein are methods of producing an acellular tissue product wherein the method can include the step of inducing apoptosis and washing the tissue after induction of apoptosis with a tonic solution. Also provided herein are acellular tissue products produced by the methods provided herein and methods of administering the acellular tissue products to a subject in need thereof.

Provided herein are methods of producing an acellular tissue product wherein the method can include the step of inducing apoptosis and washing the tissue after induction of apoptosis with a tonic solution. Also provided herein are acellular tissue products produced by the methods provided herein and methods of administering the acellular tissue products to a subject in need thereof.