Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Implantable prosthesis – Bone
Reexamination Certificate
2002-01-15
2004-06-22
Robert, Eduardo C. (Department: 3732)
Prosthesis (i.e., artificial body members), parts thereof, or ai
Implantable prosthesis
Bone
Reexamination Certificate
active
06752833
ABSTRACT:
This application is a continuation of prior international application no. PCT/NL01/00134, filed on Feb. 19, 2001, which claims priority from European patent application number EP 00200565.0, filed Feb. 18, 2000; European patent application number EP 00200566.8 filed Feb. 18, 2000; and European patent application number EP 00203547.5 filed Oct. 12, 2000.
The invention relates to a plug for insertion in a bone canal.
Plugs for insertion into a bone canal are generally known and are used to restrict the flow of cement during prosthesis implantation.
In implant surgery and in particular for implantation of a hip prosthesis, it is common practice to cement the prosthesis to the bone. In order to cement the prosthesis to the bone, the bone canal is broached or reamed, such that the trabecular, porous bone portions are removed and the remaining cortical, hard bone portions define the walls of the bone canal. An anchoring portion of the prosthesis is then inserted into the bone canal, for example an anchoring portion of a hip prosthesis is inserted into a broached femoral bone, such that a ball portion of the prosthesis extends outward to replace the natural ball portion of the hip bone.
In order to fix the anchoring portion of the prosthesis to the bone, cement, such as polymethylmethacrylate (PMMA) is inserted into the bone canal and is packed upon the prosthesis prior to insertion thereof. This cement then anchors the anchoring portion of the prosthesis to the bone material.
In order to provide for a secure joint between the prosthesis and the bone at the cement interface, it is desired to have the cement completely surround the prosthesis in the interstices between the prosthesis and the bone material. However, the insertion forces and pressures exerted during insertion of the implant often drive the cement substance down into the intramedullary canal and away from the fixation area. This way, voids are formed in the cement mantle which later become stress points leading to early fatigue of the prothesis and/or the fixation.
In order to restrict the flow of bone cement further into the intramedullary canal, intramedullary plugging devices or “plugs” have been developed which can be inserted into the bone canal as a blockage. Usually, the plug is provided with fins or other flange-like projections. These fins or flanges serve for simultaneous fixing of the plug in the bone canal by clamping engagement of the walls and for blocking cement passage of the bone canal. When the implant is forced into the broached portion of the intramedullary canal, the tendency of the restricted bone cement to flow down the canal is prevented by the fins or flanges of the plug cooperating with the walls of the canal.
A problem associated with the known plugs is that the fins or flanges do not always cooperate sufficiently sealingly or blockingly with the bone canal. This is largely caused by the fact that the bone canal as defined by the cortical bone has a cross-section that varies along its longitudinal axis. In particular, the cross-section is of substantially elliptical or oval shape at the onset of the canal and axially inwardly becomes more circularly shaped at a midportion. Further inwardly, the cross-section becomes substantially oval or elliptically shaped again, having an orientation that is rotated around the axis of the canal to a position wherein it is substantially perpendicular to the orientation of the first section. In addition, for each person, the size of the bone and therewith the cross-section and axial dimension of the bone canal varies.
During implantation, the plug has to be placed sealingly at a predetermined location within the bone canal, e.g. about 1.5 cm axially inward from the preferred location of the lower tip of the anchoring portion after insertion.
Due to the varying shape of the bone canal it has proven difficult to provide a plug that can be used to reliably plug the canal at any axial location. Depending on the circumstances, a good chance exists that cement can either pass the flanges of the plug or that the plug can escape inwardly into the canal upon insertion of the anchoring portion.
In the prior art, to overcome the problem of insufficient cooperation of the flanges with the bone canal, it has been suggested to provide the plug with a plurality of flanges, each having varying radial dimension e.g. by tapering a central body from which disk-like fins extend as described in U.S. Pat. No. 5,383,932 or by providing a central body with disk-like fins of increasing size extend as described in U.S. Pat. No 5,879,403. This solution however has the disadvantage that the chance exists that one or more flange will not engage the wall sufficiently strong enough, which may cause the plug to escape into the canal. In addition, in the prior art it has been proposed to provide the flanges with radial cuts, such that insertion of such flanges into unexpectedly narrow portions of the bone canal is facilitated. An example thereof is shown in e.g. U.S. Pat. No. 4,245,359 or 5,766,178.
However, this increases the chance of cement passing through the flanges of the plug as the top surfaces of the flanges are open.
The invention aims to provide a plug in which the above problem is alleviated. According to the invention, providing a plug for insertion into a bone canal is provided, comprising an elongate central body of substantially constant cross section carrying at least four radially extending flanges of substantially equal shape and size, the flanges forming disk-like structures and being axially spaced along the central axis of the body, such that the extend in substantially parallel planes, the plug being made of a copolymer of a polyalkylene glycol terephtalate and an aromatic polyester.
Surprisingly, it has been found that a copolymer of polyalkylene glycol terephtalate and aromatic polyester allows for a plug configuration having a plurality of axially spaced, identical flanges, without the need for providing the flanges with a decreasing radial dimension. The at least four flanges each have equal chance of engaging the wall of the bone canal. The specific combination of configuration and material allows the flanges to cooperate both sufficiently sealingly and blockingly with the walls of the bone canal, while yet being made of a biocompatible and biodegradable material. Any radial cuts in the flanges may, in use be closed due to swelling of the material in response to surrounding fluid.
To further enhance flexibility, at least one of the flanges may be provided with at least one flexing zone having reduced material thickness relative to a supporting zone that surrounds the flexing zone. In particular, the flanges may be provided with apertures, which may or may not extend axially through the flanges. Examples of apertures that do not axially extend through the flanges are closed chambers or voids, blind holes and grooves. Examples of apertures that do axially extend through the flanges are perforations, through holes and slots. Due to swelling of the material, apertures extending axially through the flanges may in use may be at least partially closed, e.g. in case of an axially tapered perforation in a flange.
The flexibility of the material also allows the flanges to be provided with a closed surface, free of cuts. This reduces the chance of leakage to a minimum. In particular, the flanges may be free of any apertures that in use extend through the flanges in axial direction
Preferably, the copolymer comprises 20-90 wt. %, more preferably 50-80 wt. % of the polyalkylene glycol terephthalate, and 80-10 wt. %, more preferably 50-20 wt. % of the aromatic polyester. A preferred type of copolymers according to the invention is formed by the group of block copolymers.
The polyalkylene glycol terephthalate may have a weight average molecular weight of about 150 to about 4000. Preferably, the polyalkylene glycol terephthalate has a weight average molecular weight of 200 to 1500. The aromatic polyester preferably has a weight average molecular weight of from 200 to 5000, more pr
Hesseling Saret Cornelis
Spierings Petrus Tarasius Josephus
Comstock David
IsoTis N.V.
Robert Eduardo C.
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