Reduced-pressure, deep-tissue closure systems and methods

We claim: 1. A reduced-pressure, tissue closure system for applying a closing force proximate to a tissue, the reduced-pressure, tissue closure system comprising: a contractible matrix comprising a first side, a first plurality of apertures in the first side, a second side, and a plurality of cells in fluid communication with the first plurality of apertures, each of the plurality of cells having cell walls defining a hollow space and at least one intercellular aperture being formed in each of the cell walls and extending from a first cell to a second cell; and a reduced-pressure source fluidly coupled to the contractible matrix and operable to deliver reduced pressure to the contractible matrix. 2. The reduced-pressure, tissue closure system of claim 1 wherein the contractible matrix is operable, when a reduced pressure is supplied by the reduced-pressure source, to develop a gripping force on a tissue adjacent to the first side of the contractible matrix and to move from an uncontracted position to a contracted position. 3. The reduced-pressure, tissue closure system of claim 1 wherein the contractible matrix is operable, when a reduced pressure is supplied by the reduced-pressure source, to develop a gripping force on a tissue adjacent to the first side of the contractible matrix and to generate the closing force on the tissue. 4. The reduced-pressure, tissue closure system of claim 1 wherein the contractible matrix comprises a honeycomb matrix. 5. The reduced-pressure, tissue closure system of claim 1 wherein the contractible matrix comprises a honeycomb matrix of thermoplastic elastomers. 6. The reduced-pressure, tissue closure system of claim 1 wherein the plurality of cells comprise a plurality of gear-shaped cells. 7. A contractible matrix adapted to be disposed proximate to tissue in a body cavity, the contractible matrix comprising: a first side and a second side, a plurality of apertures in the first side, cells in fluid communication with the plurality of apertures, each of the cells formed by an interconnected cell wall extending from the first side to the second side and defining a hollow space, and an intercellular aperture extending through each of the interconnected cell walls, wherein each intercellular aperture fluidly couples adjacent cells and extends from a first cell to a second cell. 8. The contractible matrix of claim 7 , wherein the contractible matrix is formed from a material selected from the group consisting of: a thermal plastic elastomer and a thermoplastic urethane. 9. The contractible matrix of claim 7 , wherein each of the cells is centered around one of the plurality of apertures. 10. The contractible matrix of claim 7 , wherein the contractible matrix is operable to develop a gripping force on tissue adjacent to the first side and to move from an uncontracted position to a contracted position. 11. The contractible matrix of claim 7 , wherein the contractible matrix comprises a honeycomb matrix of thermoplastic elastomers.