Provided herein are methods and compositions relating, in part, to the generation of human progenitor cells committed to the lung lineage and uses of such cells for treatment of lung diseases/disorders or injury to the lung. Whether an adult stem cell can be isolated from human adult lung remains controversial in the art and at present, methods for isolating and using adult lung stem cells from humans lack reproducibility. Thus, the methods and compositions described herein are advantageous over the present state of knowledge in the art and permit the generation of human lung progenitor cells for treatment, tissue engineering, and screening assays.

The present invention provides valve prostheses adapted to be initially crimped in a narrow configuration suitable for catheterization through body ducts to a target location and adapted to be deployed by exerting substantially radial forces from within by means of a deployment device to a deployed state in the target location.

The invention provides methods for the treatment of vaginal laxity which include delivering a cell-containing composition to the vagina. The composition can include fat tissue to provide a bulking effect to reduce the size of the vaginal opening. The cells can provide healing and revascularization of the vaginal treatment area to sustain the bulking provided by the fat. The invention also provides systems and compositions useful for performing the method, and can include instruments and devices for removal of autologous adipose tissue from a patient (e.g., by liposuction), equipment for the enrichment of cells from adipose tissue, mechanical processing of adipose tissue, and the mixing of cells and processed adipose tissue. Devices for the delivery of the cell compositions to the vagina can also be included in the system.

A method for cell printing is disclosed. The method includes generating a receiver substrate, ablating or removing a portion of the receiver substrate via a first laser to expose a target layer, generating a donor substrate containing a back surface and a front surface, applying a coating of donor material to the front surface. The method further includes aligning the front surface of the donor substrate to be parallel to and facing the receiver substrate, wherein the donor material is disposed adjacent to the target layer, and irradiating the coating through the back surface of the donor substrate with one or more laser pulses produced by a second laser to transfer a portion of the donor material to the target layer. A system for cell printing is also disclosed.

Provided herein are materials and methods related to scaffolds and uses thereof. In some embodiments, provided herein are poly (octamethylene-octanol citrates) (POOC) scaffolds with native mechanical properties that are comparable to urinary bladder tissue. In some embodiments, provided herein are methods for the synthesis of POOC scaffolds with native mechanical properties that are comparable to urinary bladder tissue by including octanol in the polycondensation synthesis of POC. In some embodiments, provided herein are methods of use of the disclosed scaffolds, including for urinary bladder tissue regeneration.

A method of treating a lesion in a gastrointestinal tract and an injectate system are provided. The method includes injecting a crosslinkable gel into a first tissue layer, the crosslinkable gel increasing a volume of the first tissue layer. The method also includes providing a crosslinker and resecting a portion of a first tissue layer having the increased volume away from a second tissue layer creating an exposed region in a remaining portion of the first layer and leaving a portion of the gel covering at least a portion of the exposed region. The injectate system includes a crosslinkable gel and a crosslinker where the crosslinkable gel and the crosslinker form a crosslinked gel having a compressive modulus of about 10-500 kPa.

Methods of using human airway stem cells in lung epithelial engineering, optionally wherein the cells are contacted with a gamma secretase inhibitor, bioartificial airway organs produced thereby, and the use thereof, e.g., for transplantation. Also methods of treating a bio-artificial matrix with Tenascin-C and/or fibrillin 2.

Systems and methods of the present disclosure include a cell culture, a method for producing the cell culture, a kit for producing the cell culture, a method for treating inflammatory disease using the cell culture, and the like, for treating inflammatory disease. The cell culture containing cells can be derived from skeletal muscle.

The present invention provides tissue equivalent scaffold structures and methods of production thereof. Such methods include providing a casting chamber comprising an elongate mould portion, axially disposing a lumen template within the elongate mould portion, and at least partly filling the casting chamber with a gel casting material comprising a matrix of fibrils or fibres and an interstitial fluid phase, such that a portion of the lumen template extends above the casting material. The fluid phase of the gel is allow to flow axially out of the elongate mould portion, in a restricted manner, thereby resulting in axial densification of the gel casting material to form a tissue equivalent tubular scaffold. Tissue equivalent scaffold structures according to the present invention are able to support cell populations both within the walls and on the surface of the construct. They have enhanced mechanical strength due to increased collagen density, and are customisable in terms of luminal diameter and wall thickness. They may find application in tubular tissue engineering.

Provided herein are methods and compositions relating, in part, to the generation of human progenitor cells committed to the lung lineage and uses of such cells for treatment of lung diseases/disorders or injury to the lung. Whether an adult stem cell can be isolated from human adult lung remains controversial in the art and at present, methods for isolating and using adult lung stem cells from humans lack reproducibility. Thus, the methods and compositions described herein are advantageous over the present state of knowledge in the art and permit the generation of human lung progenitor cells for treatment, tissue engineering, and screening assays.