A bioremodelable encasement structure comprising a pouch formed from at least one sheet of bioremodelable material, the pouch including an internal region that is configured to receive a device therein, the bioremodelable material comprising mesothelial tissue.

A resilient resorbable chemically crosslinked collagen sponge for promoting soft tissue volume augmentation in the oral region, comprising 60-96% (w/w) collagen and 4-40% (w/w) elastin, which shows by mercury intrusion porosimetry interconnected pores with a median pore diameter between 50 and 90 m and at least 80% porosity with a pore diameter more than 10 m, an onset temperature of 45 to 57 C. and a density in dry state from 50 to 65 mg/cm.sup.3. A process for preparing a resilient resorbable chemically crosslinked collagen sponge. A method of using a resilient resorbable chemically crosslinked collagen sponge as an implant in the oral cavity for soft tissue volume augmentation.

Described are packaged, sterile medical graft products containing controlled levels of a growth factor such as Fibroblast Growth Factor-2 (FGF-2). Also described are methods of manufacturing medical graft products wherein processing, including sterilization, is controlled and monitored to provide medical graft products having modulated, known levels of a extracellular matrix factor, such as a growth factor, e.g. FGF-2. Preferred graft materials are extracellular matrix materials isolated from human or animal donors, particularly submucosa-containing extracellular matrix materials. Further described are ECM compositions that are or are useful for preparing gels, and related methods for preparation and use.

The present invention provides a preparation method for implantable medical biological material of animal origin comprising the following procedures: Pre-processing, and washing of animal tissue materials; inactivation of virus; decellularizing cell; sodium chloride processing; molding and packaging sterilization. Cell-free ECM materials of animal origin produced by this method can achieve the goal of completely removing cell components of animal origin and composition of DNA, and at the same time, the natural ECM composition, three-dimensional structure and active growth factor which can induce and promote tissue regeneration retain. By using this process, endotoxin, organic solvents and toxic solvent residue are thus omitted and products with different sizes, thickness and mechanical strength can be formed.

A bioremodelable encasement structure comprising a pouch formed from at least one sheet of bioremodelable material, the pouch including an internal region that is configured to receive a device therein, the bioremodelable material comprising mesothelial tissue.

Methods and compositions for treating diseased or damaged tissue, such as Inflammatory Bowel Disease, e.g., Ulcerative Colitis, include tissue regeneration using stem cells or tissue grafts which stimulate stem cell migration to the damaged tissue. The tissue grafts can be extracellular matrix (ECM) material, such as tissue-specific extracellular matrix (TS-ECM). The methods can also include mucosal resection of the damaged or diseased tissue prior to placement of the graft.

A prosthetic heart valve provided herein can include a porcine small intestine submucosa (P-SIS) tissue leaflet. The P-SIS tissue can include multiple stacked layers that are tensioned and cross-linked to form a material having a thickness of between 50 microns and 0.33 mm. In some cases, a prosthetic heart valve can include a plurality of leaflets secured together and retained within the expandable tubular member.

A method is provided for implanting a valve having at least one valve leaflet within the cardiovascular system of a subject. One step of the method includes preparing a substantially dehydrated bioprosthetic valve and then providing an expandable support member having oppositely disposed first and second ends and a main body portion extending between the ends. Next, the substantially dehydrated bioprosthetic valve is attached to the expandable support member so that the substantially dehydrated bioprosthetic valve is operably secured within the main body portion of the expandable support member. The expandable support member is then crimped into a compressed configuration and placed at a desired location within the cardiovascular system of the subject. Either before or after placement at the desired location, fluid or blood re-hydrates the substantially dehydrated bioprosthetic valve.

A self-expanding wire frame for a pre-configured compressible transcatheter prosthetic cardiovascular valve, a combined inner frame/outer frame support structure for a prosthetic valve, and methods for deploying such a valve for treatment of a patient in need thereof, are disclosed.

Volumizing grafts useful for plastic and reconstructive surgery, especially those involving replacement or enhancement of tissue mass and volume. The volumizing graft includes a sheet shaped body made of a biocompatible material which forms, or is capable of forming, a shape having a cavity for receiving, holding, containing, etc., one or more additional components. Either or both of the sheet shaped body and additional components may be bioactive. Either or both of the sheet shaped body and additional components may comprise tissue derived matrices. The sheet shaped body of the volumizing graft enables the additional components to be positioned, oriented, affixed, or some combination thereof, in or proximate to a treatment site, either permanently or temporarily. This may allow subsequent removal, repositioning, replacement, supplementing, or a combination thereof, of the additional components, at the treatment site.