Method and implant for replacing damaged meniscal tissue

What is claimed is: 1. A meniscus implant for replacing damaged meniscal tissue of a knee joint, the meniscus implant comprising: a substantially C-shaped porous body comprising an outer convex peripheral surface, an inner concave peripheral surface, an upper surface, a lower surface, and a cross-sectional area in a plane orthogonal to the lower surface which tapers from the outer convex peripheral surface to the inner concave peripheral surface, the porous body having: a plurality of interconnected open micro-pores arranged to allow fluid to flow into the porous body; a plurality of open cavities equally spaced along the porous body for receiving meniscal tissue; and a plurality of pieces of native meniscus inserted into the open cavities of the porous body, wherein each of the plurality of open cavities is straight from the upper surface and the lower surface and penetrates entirely through the porous body from the upper surface to the lower surface, each of the open cavities is cylindrical or prismatical in shape and has a diameter between about 1.5 mm and about 5.5 mm, wherein the interconnected micro-pores are open at the outer convex peripheral surface, the inner concave peripheral surface, the upper surface, and the lower surface, the micro-pores having a diameter between about 120 μm and about 370 μm, wherein the interconnected micro-pores are in fluid communication with the plurality of open cavities and, wherein the outer convex peripheral surface of the porous body comprises a meniscus-engaging surface configured to abut an inner concave side of a rim of remaining native meniscus material. 2. The meniscus implant of claim 1 , wherein each of the plurality of open cavities has a longitudinal axis that extends orthogonally to the lower surface of the porous body. 3. The meniscus implant of claim 1 , wherein the porous body further comprises one or more transverse passages penetrating through the porous body and through the plurality of open cavities from the outer convex peripheral surface to the inner concave peripheral surface. 4. The meniscus implant of claim 1 , wherein the porous body is made of a material with an elastic modulus in tension E ci of minimum of about 10 MPa measured in a circumferential direction, an elastic modulus in tension E r of minimum about 1 MPa measured in a radial direction, and an elastic modulus in compression E co of minimum of about 0.1 MPa. 5. The meniscus implant of claim 4 , wherein the porous body is made of a synthetic material. 6. The meniscus implant of claim 1 , wherein the interconnected micro-pores of the porous body are filled with a hydrogel-like substance containing cells. 7. The meniscus implant of claim 1 , further comprising: a plurality of spikes protruding from the outer convex peripheral surface of the porous body. 8. The meniscus implant of claim 7 , wherein at least a portion of each of the spikes defines a cannula. 9. The meniscus implant of claim 8 , wherein the cannula of each of the spikes extends into the porous body. 10. The meniscus implant of claim 8 , wherein the cannula of each of the spikes has a diameter in a range of from about 0.4 mm to about 1.0 mm. 11. The meniscus implant of claim 7 , wherein the spikes have the shape of truncated cones or truncated pyramids. 12. A meniscus implant for replacing damaged meniscal tissue of a knee joint, comprising: a substantially C-shaped porous body comprising an outer convex peripheral surface, an inner concave peripheral surface, an upper surface, a lower surface, and a cross-sectional area in a plane orthogonal to the lower surface which tapers from the outer convex peripheral surface to the inner concave peripheral surface, the porous body having: a plurality of interconnected open micro-pores arranged to allow fluid to flow into the porous body; a plurality of open cavities equally spaced along the porous body for receiving meniscal tissue, each of the plurality of open cavities having a longitudinal axis that extends orthogonally to the lower surface of the porous body; a plurality of pieces of native meniscus inserted into the open cavities of the porous body; and a plurality of spikes radially protruding from the outer convex peripheral surface of the porous body, wherein each of the plurality of open cavities penetrates through the porous body from the upper surface to the lower surface, each of the plurality of open cavities has a diameter between about 1.5 mm and about 5.5 mm, wherein the interconnected micro-pores are open at the outer convex peripheral surface, the inner concave peripheral surface, the upper surface, and the lower surface, the micro-pores having a diameter between about 120 μm and about 370 μm, wherein the interconnected micro-pores are in fluid communication with the plurality of open cavities, and wherein the interconnected micro-pores of the porous body are filled with a hydrogel-like substance containing cells. 13. The meniscus implant of claim 12 , wherein each of the plurality of open cavities is cylindrical or prismatical. 14. The meniscus implant of claim 12 , wherein at least a portion of each of the spikes defines a cannula. 15. The meniscus implant of claim 14 , wherein the cannula of each of the spikes has a diameter in a range of from about 0.4 mm to about 1.0 mm. 16. The meniscus implant of claim 15 , wherein the spikes have the shape of truncated cones or truncated pyramids.