A ureteral stent is provided. The stent may include a first section having a first wall defining a first luminal section. The stent may further include a second section having a second wall defining a second luminal section. The second section can be enabled to substantially close at times external pressure is applied to the stent.

A multilayer scaffold device that includes a luminal electrospun layer, the luminal electrospun layer configured to provide a suitable environment to induce epithelium formation on the scaffold, an exterior electrospun layer, the exterior electrospun layer located radially exterior to the luminal electrospun layer, the exterior electrospun layer configured to induce formation of non-epithelial tissue; and at least one intermediate layer interposed between the luminal electrospun layer and that exterior electrospun layer, the intermediate layer configured to organize the formation of the respective epithelial tissue and the non-epithelial tissue.

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 an organ production method including a step of tissue-specifically removing a first portion of an organ of a non-human animal partway through development thereof; a step of transplanting, into a region from which the first portion has been removed, an organ precursor cell which is allogeneic or xenogeneic to the non-human animal; and a step of advancing development of the organ, which is a step in which the transplanted organ precursor cell is differentiated and matured to form a part of the organ.

Provided herein are urine progenitor cells and methods for producing a culture of urine progenitor cells from a urine sample. The cells may be selected based upon the use of a selective cell medium, based upon morphology, and/or by selecting cell-specific markers. Also provided is an isolated urine progenitor cell that is c-kit positive and can differentiate into urothelium, smooth muscle, endothelium or interstitial cells. Methods of use of urine progenitor cells are provided, wherein cell are seeded onto a tissue scaffold are provided. Methods of treating a subject in need thereof are also provided, including providing a bladder tissue substrate that includes differentiated UPCs and transplanting the substrate into the patient. Finally, kits are provided that include a container suitable for the transport of a urine sample; media; one or more antibiotics; a package for holding said container, media, and antibiotics; and optionally, instructions for use.

According to an example aspect of the present invention, there is provided a composition for use in the treatment of urinary or faecal incontinence, the composition comprising a nanostructured cellulosic material.

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.

Provided herein are methods which alter the mechanical and biological properties of polymeric materials. Also provided are compositions comprising the polymeric materials having said properties.

A disposable device for absorbing urine and/or bodily fluids in the urethra having a cylindrical body having a top and bottom end. The body is made of absorbent material that expands upon contact with urine and bodily fluids and includes a string connected to the bottom end of the body for removing the device from the urethra. The device can include a vasodilator in or on a surface of the body and can be used to treat urinary incontinence and/or erectile dysfunction by inserting into the urethra and removing the device after it has been impregnated with fluid. The device can be included in a kit with a plunger for insertion.

A high molecular weight polyethylene polymer is formulated so that the polymer is capable of being injection molded. The polyethylene polymer has a Viscosity Number of greater than about 400 ml/g and has a melt flow rate of greater than about 0.9 g/10 min. The polyethylene polymer is of high purity and is particularly well suited for producing medical products.