A method for preparing a biocompatible tissue for revitalization thereof, wherein such tissue has an essentially tubular shape. The method provides inserting a support that mainly extends along a longitudinal extension axis inside the cavity defined by the tissue and performing on the outer and/or inner surface of the tissue a plurality of holes spread out on at least one of the generatrixes of the tissue. Holes are made with a depth which occupies at least a part of the thickness of the tissue.

The present invention is encompassed in the field of biomedicine and more specifically tissue engineering. It relates specifically to an in vitro method for preparing an artificial tissue, to the artificial tissue obtainable by said method and to the use of this artificial tissue to partially or completely increase, restore or replace the functional activity of a damaged tissue or organ.

A device for treating a damaged tissue includes an expandable scaffold positionable in a portion of a luminal tissue structure of a mammal; and maintained via stent technology, wherein the scaffold is comprised of electrospun fibers composed of a biodegradable compound. The scaffold serves as a temporary template that allows the tissue to be rebuilt.

Various exemplary surgical adjuncts with medicants affected by activator materials are provided. In general, an adjunct is provided with at least one medicant that is configured to be activated by an activator material. The adjunct can be delivered to a tissue of a patient, where the adjunct can be implanted. Various activator materials can be configured to activate the at least one medicant retained by the adjunct, the activation causing any one or more of a variety of actions. For example, the at least one medicant can be activated so as to yield at least one of a signal and/or an effect on the adjunct.

The purpose of the present invention is to provide a novel medical use of pluripotent stem cells (Muse cells) in regenerative medicine. The present invention provides a cell preparation and a pharmaceutical composition which contain SSEA-3 positive pluripotent stem cells isolated from mesenchymal tissue of a living organism or cultured mesenchymal cells, and which are intended for alleviation and treatment of ischemia reperfusion-induced lung injury. The cell preparation according to the present invention is based on a mechanism in which Muse cells are administered to a subject having the abovementioned disease to engraft the cells into lung tissues, and the disease is alleviated and treated.

An object is to provide a composition containing a pancreatic islet, a cell structure containing a pancreatic islet or a pancreatic islet cell, a pancreatic islet transplantation kit, a pancreatic islet transplantation treatment agent, and a hypoglycemic agent which improve at least one of glucose sensitivity or blood sugar level-reducing performance after transplantation, and to provide a composition containing a pancreatic islet, a kit containing a pancreatic islet, a pancreatic islet cell transplantation treatment agent, and a hypoglycemic agent which can improve glucose sensitivity. A composition including (A): a cell structure containing a biocompatible macromolecular block and at least one kind of cell and in which a plurality of the above-described macromolecular blocks are arranged in gaps between a plurality of the above-described cells; and (B): a pancreatic islet, and a composition containing a pancreatic islet; and a spheroid formed of at least one type of stem cell are provided.

An organ for transplantation having a kidney, a ureter, and a urinary bladder and an organ structure in which a first ureter, a first urinary bladder, a second ureter and a second urinary bladder are sequentially connected to a kidney can produce urine and excrete the produced urine, and thus is useful for transplantation.

Tissue adhesions using surgical adjuncts and medicants are provided. In general, an implantable adjunct can have one or more medicants releasably retained therein that are configured to induce tissue adhesions. The adjunct can be configured to be applied to lung tissue in conjunction with surgical staples using a surgical stapler. Pleurodesis can be encouraged through delivery of the adjunct to the lung tissue.

The invention is directed to a composition comprising a fibrin hydrogel conjugated to peptides of laminin-111 (L1) and methods for repairing damaged salivary tissue using the composition.

Described are methods and compositions for treatment of reproductive or urogenital mucosal tissue damage using Extracellular Matrix (ECM) solution and, particularly, Extracellular Matrix Hydrogel (ECMH) solution delivered to the target site for tissue repair, restoration, remodeling, or reconstruction.