Disclosed herein are compositions and methods that involve using compositions containing one or more of ETV2, FOXC2, FLI1 and a miR-200b inhibitor for directly reprogramming somatic cells into induced vasculogenic cells both in vitro and in vivo. These compositions and methods are useful for a variety of purposes, including the development of pro-angiogenic therapies.

Compositions of matter comprising decellularized omentum are disclosed. The compositions may be scaffolds, hydrogels or hydrogel precursor compositions. Methods of generating the compositions are disclosed as well as uses thereof.

Compositions of matter comprising decellularized omentum are disclosed. The compositions may be scaffolds, hydrogels or hydrogel precursor compositions. Methods of generating the compositions are disclosed as well as uses thereof.

Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

A composition including, (a) a mineral particle, (b) endothelial cells and mesenchymal cells, and (3) hyaluronic acid, is provided. Moreover, a kit which includes: a syringe, a mineral particle covered with endothelial cells and mesenchymal cells organized in 2 or more cell layers attached to the mineral particle, and hyaluronic acid, is also provided. Last, a method for filling a gap in a bone of a subject in need thereof, including contacting the gap with a composition of: (a) a mineral particle, (b) endothelial cells and mesenchymal cells, and (3) hyaluronic acid is provided.

A composition including, (a) a mineral particle, (b) endothelial cells and mesenchymal cells, and (3) hyaluronic acid, is provided. Moreover, a kit which includes: a syringe, a mineral particle covered with endothelial cells and mesenchymal cells organized in 2 or more cell layers attached to the mineral particle, and hyaluronic acid, is also provided. Last, a method for filling a gap in a bone of a subject in need thereof, including contacting the gap with a composition of: (a) a mineral particle, (b) endothelial cells and mesenchymal cells, and (3) hyaluronic acid is provided.

Methods of generating and expanding human hemangio-colony forming cells in vitro and methods of expanding and using such cells are disclosed. The methods permit the production of large numbers of hemangio-colony forming cells as well as derivative cells, such as hematopoietic and endothelial cells. The cells obtained by the methods disclosed may be used for a variety of research, clinical, and therapeutic applications.

Methods of generating and expanding human hemangio-colony forming cells in vitro and methods of expanding and using such cells are disclosed. The methods permit the production of large numbers of hemangio-colony forming cells as well as derivative cells, such as hematopoietic and endothelial cells. The cells obtained by the methods disclosed may be used for a variety of research, clinical, and therapeutic applications.

Compositions comprising donor cells, acceptor cells, membrane-enclosed bodies and methods are described herein.