Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...
Patent
1990-11-27
1992-02-04
Wilson, John J.
Surgery
Means for introducing or removing material from body for...
Treating material introduced into or removed from body...
604 8, 623 12, A61M 532
Patent
active
050856464
DESCRIPTION:
BRIEF SUMMARY
TECHNICAL FIELD
The invention relates to an element for controlled growth of tissue into surgically intervened regions, e.g. for implant passageways, such an element being used to fix a prosthesis in the body or forming such a prosthetis itself.
BACKGROUND OF THE INVENTION
When an element is to be incorporated into a tissue or is to be implanted in such a way that it must pass through several tissues, i.e. in case of through the skin or through a mucous membrane, it is required that the element should be biocompatible, i.e. it must be accepted by the tissue, and the problem arises how to achieve a reliable retention of the element in the surrounding tissue to avoid a purely mechanical dislocation of the element. Unsatisfactory biocompatibility as well as insufficient retention leads to tissue irritation, possibly followed by tissue rupture at the element. This means formation of reactive zones of connective tissue with a more or less pronounced streak of inflammation leading to the element no longer being harmoniously incorporated in the tissue region; the element starts to wander and loses its function. Furthermore, tissue irritation at implant passageways leads to downgrowth of epithelium around the element and, as a consequence thereof, finally to rejection.
In order to solve these problems, the element according to the invention has obtained the characteristics of the claims.
BRIEF DESCRIPTION OF THE DRAWINGS
For explanation of the invention in more detail reference is made to the accompanying drawings, wherein
FIG. 1 shows a cylindrical implant element having peripheral grooves and a central passage,
FIG. 2 illustrates an outer socket having through holes of the same levels as the grooves of the cylinder of FIG. 1,
FIG. 3 shows the cylinder and tee socket pressed together to form a unit providing a tunnel and/or canal network within the periphery of the implant element, and
FIG. 4 is an illustration similar to FIG. 3 but with a diametrically wider flange on the upper end portion of the cylinder.
DETAILED DESCRIPTION
In the illustrated embodiment, the element 10 is tubular and can comprise e.g. an implanted conduit for peritoneal dialysis (abdominal dialysis). The conduit can be rigid or flexible. It forms a number of tunnel and/or canal networks 11, which are separated from the passage 12 through the element by a solid wall 13 and from the exterior surface of the element by an ingrowth zone 14, the openings of which are indicated at 15 and form circular apertures. The connective tissue, which is indicated at 16, grows into the tunnel and/or canal network 11, matures and attains a structural organization resulting in the epithelium 17 being prevented from growing down along the surface of the element and infiltrating the layer of connective tissue next to the element to enclose eventually the element 10, which leads to rejection of the element. The tissue ingrowth into the tunnel and/or canal network 11 should be such that the connective tissue inside the tunnel and/or canal network 11 becomes complete and attains full maturity, i.e. the tunnel and/or canal network 11 should be sufficiently large to allow the connective tissue cells as well as the blood-vessels necessary for the maintenance of the connective tissue to grow thereinto, thus creating conditions for the generation of connective tissue fibres and matrix by the connective tissue cells and for the maturation of the components of the connective tissue and normal renewal thereof, requiring that no part of the tunnel and/or canal network 11 should have a diameter less than 30 .mu.m.
According to the invention, the surfaces of the element 10, which are exposed to the surrounding tissue, consist of a biocompatible material, titanium being an excellent material of this kind. The element 10 as a whole can consist of titanium, but preferably the element 10 is coated on said surfaces, i.e. the exterior surface of the element inside the tunnel and/or canal network il, with titanium by a thin layer thereof being deposited on a substrate by vac
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Axelsson Robert
Svenson Jan A.
LaViola Frank A.
Wilson John J.
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