Embodiments described herein relate to a method for preparing cultured cells, the method comprising: obtaining kidney tissue from a human subject; mechanically dissociating the tissue; subjecting the tissue to enzymatic digestion; incubating the tissue with media in a cell culture plate to form cultured cells.

The present invention provides a kidney production method including a step of tissue-specifically removing a metanephric mesenchyme of a metanephros of a non-human animal; a step of transplanting, into the metanephros, a kidney precursor cell derived from a non-human animal which is allogeneic or xenogeneic to the non-human animal; and a step of advancing development of the metanephros, which is a step in which the transplanted kidney precursor cell is differentiated and matured to form a part of the kidney.

Disclosed herein are compositions and methods to decellularize an isolated organ or portion thereof. Also disclosed herein are compositions and methods for treatment of disease utilizing a decellularized or recellularized organ. Also disclosed herein are methods of improving decellularization and/or recellularization of an isolated organ or portion thereof.

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 treating a condition of a ureter or kidney having a cylindrical body about 1-2 mm in diameter by about 5 to 10 mm in length and having a top and bottom end. The body is made of absorbent material that expands upon contact with pharmaceutical agent and bodily fluids and includes a string connected to the bottom end of the body for removing the device. The device can be used to treat a condition of the ureter or kidney by inserting into the ureter or kidney, delivering a pharmaceutical agent, and removing the device after it has been impregnated with fluid. The device can be included in a kit with an insertion device and/or appropriate pharmaceutical agents.

Embolization compositions and methods for controlling undesired bleeding and other treatments are provided. Preferred composition may comprise (a) a crosslinked hydrogel material; and (b) a fiber material, wherein the composition comprises a plurality of macropores; and the hydrogel material and fiber material are bonded by covalent and/or non-covalent bonds.

The present invention provides a composition for kidney treatment using the omentum, a medical kit for kidney treatment including the composition for kidney treatment using the omentum, and a film for kidney treatment including a cured product of the composition for kidney treatment using the omentum.

The kidney regeneration accelerator that contains a component obtained by decellularizing a mammalian organ. The production method for a kidney regeneration accelerator that involves decellularizing a mammalian organ to obtain a component that includes an extracellular matrix, freeze drying and then pulverizing the component to obtain a powder, and performing a sterilization treatment on the powder. A pharmaceutical composition for use in treating kidney disease that contains a component obtained by decellularizing a mammalian organ. A treatment method for kidney disease that involves applying a pharmaceutical composition that contains a component obtained by decellularizing a mammalian organ to a site to be treated of the kidney of a human or animal kidney disease patient.

Described herein are regenerative approaches with tunable cell-cell and cell-matrix interactions to enhance the ability to regenerate multiple zones within a construct with each zone possessing a unique, optimum, level of cell-cell and cell-matrix interaction.

Methods for decellularizing organs and tissues in vitro and in vivo are provided, as are methods of maintaining organ and tissue frameworks and methods of recellularizing organs and tissues, thereby providing an approach to needed organs or tissues.