摘要:
The present disclosure relates to a three-dimensional, degradable medical implant for regeneration of soft tissue comprising a plurality of volume-building components (20) and a mesh component (22) which is substantially made of monofilament or multifilament fibers, wherein each volume-building component (20) is attached to at least one point on a surface of the mesh component (22), and wherein the projected surface area of each volume-building component (20), when projected on the surface of the mesh component (22), corresponds to a maximum of one tenth of the surface area of the mesh component.
摘要:
The present invention relates to a resorbable polymeric mesh implant, that is intended to be used in the reconstruction of soft tissue defects. The mesh implant comprises at least a first and a second material, wherein the second material is substantially degraded at a later point in time than the first material following the time of implantation. The mesh implant is adapted to have a predetermined modulus of elasticity that gradually is decreased until the mesh implant is completely degraded and subsequently resorbed. Due to the gradual decrease in the modulus of elasticity of the inventive mesh implant, the regenerating tissue may gradually take over the load applied to the tissue defect area.
摘要:
A resorbable polymeric mesh implant whose implant configuration varies over time after implantation for use in breast reconstruction, wherein the resorbable polymeric mesh implant comprises at least a first material and a last-degraded material, wherein the last-degraded material is substantially degraded at a later point in time in the body than the first material. The modulus of elasticity of the last-degraded material is significantly lower than the modulus of elasticity of the first material. The last-degraded material has a modulus of elasticity that corresponds to an elongation of 18 to 32% when subjected to a tensile load of 16 N/cm. The resorbable polymeric mesh implant is tubular and configured to retain a breast implant.
摘要:
The present disclosure relates to a three-dimensional, degradable medical implant for regeneration of soft tissue comprising a plurality of volume-building components and a mesh component which is substantially made of monofilament or multifilament fibers, wherein each volume-building component is attached to at least one point on a surface of the mesh component, and wherein the projected surface area of each volume-building component, when projected on the surface of the mesh component, corresponds to a maximum of one tenth of the surface area of the mesh component.
摘要:
The present invention relates to a resorbable polymeric mesh implant, that is intended to be used in the reconstruction of soft tissue defects. The mesh implant comprises at least a first and a second material, wherein the second material is substantially degraded at a later point in time than the first material following the time of implantation. The mesh implant is adapted to have a predetermined modulus of elasticity that gradually is decreased until the mesh implant is completely degraded and subsequently resorbed. Due to the gradual decrease in the modulus of elasticity of the inventive mesh implant, the regenerating tissue may gradually take over the load applied to the tissue defect area.
摘要:
The invention relates to a degradable medical mesh implant for repair or prevention of a parastomal hernia in a human patient, comprising an inner portion, which comprises a first mesh structure, and an outer portion, which surrounds the inner portion and comprises a second mesh structure. The degradable medical mesh implant is characterized in that the first mesh structure has a first value of a specific mechanical characteristic and that the second mesh structure has a second value of said specific mechanical characteristic, which second value of said specific mechanical characteristic is different from the first value of said specific mechanical characteristic.
摘要:
The present disclosure relates to a three-dimensional, degradable medical implant for regeneration of soft tissue comprising a plurality of volume-building components and a mesh component which is substantially made of monofilament or multifilament fibers, wherein each volume-building component is attached to at least one point on a surface of the mesh component, and wherein the projected surface area of each volume-building component, when projected on the surface of the mesh component, corresponds to a maximum of one tenth of the surface area of the mesh component.
摘要:
The present invention relates to a resorbable polymeric mesh implant, that is intended to be used in the reconstruction of soft tissue defects. The mesh implant has at least a first and a second material, wherein the second material is substantially degraded at a later point in time than the first material following the time of implantation. The mesh implant is adapted to have a predetermined modulus of elasticity that gradually is decreased until the mesh implant is completely degraded and subsequently resorbed. Due to the gradual decrease in the modulus of elasticity of the inventive mesh implant, the regenerating tissue may gradually take over the load applied to the tissue defect area. Interstices between individual filaments of multifilaments create a capillary effect for cells within the body
摘要:
The invention relates to a mesh support device (10) for supporting a breast implant (20), wherein the mesh support device (10) has a tubular shape. The invention relates further to a breast implant device for implantation in a human body, comprising a breast implant (20) and a mesh support device (10), in which the breast implant (20) is positioned, wherein the mesh support device (10) has a tubular shape. In accordance with the invention, a method for preparing a breast implant (20) for implantation in a human body is also disclosed.
摘要:
The present invention relates to a resorbable polymeric mesh implant, that is intended to be used in the reconstruction of soft tissue defects. The mesh implant has at least a first and a second material, wherein the second material is substantially degraded at a later point in time than the first material following the time of implantation. The mesh implant is adapted to have a predetermined modulus of elasticity that gradually is decreased until the mesh implant is completely degraded and subsequently resorbed. Due to the gradual decrease in the modulus of elasticity of the inventive mesh implant, the regenerating tissue may gradually take over the load applied to the tissue defect area. Interstices between individual filaments of multifilaments create a capillary effect for cells within the body.