Stock material or miscellaneous articles – Composite – Of polycarbonate
Reexamination Certificate
2000-05-11
2002-07-30
Kiliman, Leszek (Department: 1773)
Stock material or miscellaneous articles
Composite
Of polycarbonate
C428S423100, C428S474400, C428S480000, C428S500000, C424S001210, C424S001210, C424S009362, C424S009400
Reexamination Certificate
active
06426145
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to polymeric radiopaque materials. More particularly, the present invention relates to biocompatible and biostable radiopaque coatings useful in conjunction with implantable medical devices.
BACKGROUND OF THE INVENTION
Medical radiography is a well known and important method used for early detection and diagnosis of various disease states of the human body. However, most implantable and non-implantable surgical devices exhibit little absorption of x-ray radiation so that radiographs of both the devices and their environs are difficult to obtain. The ability to see the radiographic image of a medical device being used in or implanted within the body is very important. For example, an implanted medical device, such as an endovascular prosthesis, may need adjustment and monitoring both d ring and after implantation in the body. Radiographic imaging provides the surgeon with the ability to properly perform such adjustments. Additionally, minimally invasive procedures, which are now very commonplace, require monitoring via radiographic imaging to guide the physician. Devices such as catheters which are not intended to be left for any length of time in the body may employ conventional radiopaque metal markers which are usually disposed at the distal end to indicate the catheter whereabouts in the vessel. Such radiopaque markers are not useful, however, in implantable devices which are required to be porous and flexible, such as vascular prosthesis. Vascular grafts, including those which are surgically implanted arid those which are introduced intraluminally, are designed to mimic the natural vessels and hence require a unique combination of features to be present. The graft must be sufficiently porous to allow cellular ingrowth and encapsulation by the body, yet be fluid-tight to prevent leakage of blood. Additionally, flexibility and compliance are also key features of a successful graft product. Thus, use of metal bands or conventional radiopaque markers are unacceptable in such devices. Moreover, if a radiopaque composition is to be applied as a coating over the graft, it must permit the natural process of cellular ingrowth to occur within the first few weeks of being implanted.
To overcome this problem a variety of conventional approaches have been developed, and numerous patents disclose radiopaque compounds or polymers used in the body.
Radiographic techniques have included the injection of micro-encapsulated particles into the patient which release a radiopaque agent into the body to aid X-ray analysis of tissue and organs which are not otherwise visible by X-rays. For example, U.S. Pat. No. 5,342,605 discloses an X-ray contrast composition for oral or retrograde examination of the gastrointestinal tract comprising a divalent cation capable of forming a coating on the tract, and an iodinated radiopaque agent. Gref, et al., U.S. Pat. No. 5,565,215 discloses an injectable microparticle for the controlled release of substances for diagnostic imaging that can optionally be targeted to specific organs or cells. While these techniques may be useful for radioscopy of the gastrointestinal tract and target organs, they do not provide adequate means to detect and monitor medical devices inserted into the body which are otherwise transparent to X-ray imaging. Moreover, these radiopaque agents are not useful as biostable materials which can be used as polymeric coatings on implantable medical devices such as vascular grafts.
Furthermore, a number of patents disclose polymeric tubing which includes radiopaque polymer. U.S. Pat. No. 3,361,700 discloses a family of alkoxyalkyl esters of diiodobenzoic acid that are radiopaque and suitable to plasticize vinyl resins into a form useful for the manufacture of tubings for catheters and similar products. U.S. Pat. No. 3,645,955 discloses that di- and tetraiodoesters are superior for this purpose because they show less tendency to exude from the polymer tubing and can be used in lower concentrations, thereby providing a better balance between, flexibility and stiffness of the polymer article. While these compositions are quite suitable for the production of tubing of simple types, they are not completely satisfactory for production of more complicated shaped devices, as they have problems retaining more complex shapes. U.S. Pat. Nos. 4,250,072, and 4,283,447 disclose that if the vinyl resin is replaced partially or completely by thermoplastic polyurethane, the iodoester radiopacified compositions are amenable to the induction of complex shapes, i.e., they retain their shape. U.S. Pat. No. 4,579,879 discloses employing a controlled amount of platinum-cured silicon network polymers in such tubing to provide a surface which is more hydrophobic and gives a longer service life.
Neuenschwander, et al., U.S. Pat. No. 5,319,059 disclose a biocompatible X-ray contrasting composition:wherein the X-ray contrast material is covalently attached to a polyurethane matrix. However, the polyurethane matrix is unstable, and may be reabsorbed into the body, rendering the article invisible by radiographic imaging. This may be problematic for applications to implantable articles, whose presence would become undetectable to x-rays after decomposition of the x-ray contrast material.
Larsen, European Patent Publication No. 0 203 833, discloses a composition comprising a x-ray contrasting thermoset polymer comprised of a crosslinkable polyester resin which is dissolved in a vinyl monomer. This composition may be used to manufacture surgical articles. It However, due to the solid polymer's inflexibility it may not be used to create flexible devices and would certainly be inappropriate to use as any time of prosthetic implant which required flexibility.
Thus, while the prior art has suggested various radiopaque compounds and additives to compositions which are useful in the body, there has yet to be developed a safe, biostable polymeric coating which is easy to apply to the surface of flexible, porous medical devices, such as a vascular graft, and which forms a stable coating. Thus, there is a definite need for a radiopaque polymeric composition which can be particularly useful as a coating for medical devices, and particularly implantable medical devices, and is biocompatible and biostable.
Therefore, it is, an object of the present invention to provide such a polymeric radiopaque composition. In particular, the inventive composition is capable of adhering to or becoming part of a substrate, and capable of forming a flexible film. Furthermore, the inventive composition also possesses an appropriate amount of tackiness, crystallinity and lubricity for use as a medical device coating. Such properties can be obtained in the inventive compositions by tailoring the molecular structure in the polymer groups attached to the radiopaque components.
The present invention may be applied as a coating to a medical device or may become part of the polymer matrix used to form the device, in either case serving to provide radiopaque character to the device and thus making the device visible by X-ray imaging techniques.
Furthermore, the present invention utilizes a polymeric composition which displays improved physical properties over prior radiopaque compositions and forms a coating which has a wide adaptable range of physical properties including tackiness, lubricity, hemocompatibility, cell compatibility, and flexibility. The physical characteristics of the polymer are especially important when it is employed on vascular grafts which require natural tissue ingrowth for assimilation into the body. The polymeric radiopaque composition may be tailored to provide a substrate surface which allows the necessary neointimal ingrowth and renders the graft radiopaque, while also maintaining the graft's flexibility.
SUMMARY OF THE INVENTION
The present invention includes a radiopaque polymeric composition having the formula:
wherein A is a substituted or unsubstituted aromatic or aliphatic group containing a radiopaque component and
Hoffmann & Baron , LLP
Kiliman Leszek
Sci-Med Life Systems, Inc.
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