Endoprosthesis that can be percutaneously implanted in the...

Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Arterial prosthesis – Stent in combination with graft

Reexamination Certificate

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Details

C623S001420

Reexamination Certificate

active

06193746

ABSTRACT:

The present invention concerns an endoprosthesis. It is in the form of an elongated hollow structure. The structure can be implanted percutaneously with a catheter in a blood vessel or other cavity of the body. Once correctly positioned it will expand from an initial state with a narrow lumen into a state with a lumen that is as wide as its placement will allow.
Percutaneously implanted endoprostheses with variable lumens are known. They are employed to open or expand narrow blood-vessel lumens. The lumens can be expanded by mechanically stretching them with a known balloon catheter. They can also be compressed prior to implantation and stretch out on their own subject to the resilience introduced by the compression.
One endoprosthesis is disclosed in European A 0 292 587. It is mounted on a balloon catheter and can be dilated and removed from the catheter and left in a blood vessel. It is a stent manufactured by knitting, crocheting, or some other process for producing netting from metal or plastic filament of satisfactory tissue compatibility. The individual meshes consist of loosely interconnected loops. The loops undergo plastic deformation as the balloon expands, and the expanded prosthesis will remain expanded.
Self-expanding stents are described for example in European A 0 183 372 and U.S. Pat. No. 4,732,152. Such a prosthesis is prior to implantation compressed to a reduced cross-section against the force of its own resilience. It is then implanted in the body of a patient. Once the prosthesis has been correctly positioned, the compression is discontinued and the prosthesis springs back to its original shape inside the vessel, where it remains secured.
The endoprosthesis described in European A 0 183 372 is compressed to a reduced cross-section for purposes of implantation and then, while compressed, advanced with what is called a pusher through a catheter that has already been inserted in a vessel until the prosthesis arrives at the correct position in the vessel. Thrusting the prosthesis through the catheter requires considerable force because of the powerful friction encountered.
The system described in U.S. Pat. No. 4,732,152 includes a woven and resilient endoprosthesis kept compressed by a double wrapper closed at the distal end. The wrapping is removed from the compressed prosthesis as a stocking is removed from a leg. The ensuing friction can be avoided by injecting liquid between the wrapper's two sheets. This approach, elegant at first glance because of the way it reduces friction, is nevertheless very difficult.
The object of the present invention is accordingly to completely improve the initially described generic endoprosthesis, which can be implanted with a catheter and has a variable lumen. The improved prosthesis will provide communication with or between cavities in the body and maintain that communication permanently. It will also be therapeutically useful.
This object is attained in accordance with the invention in the endoprosthesis by a lining of a wrapping material that deforms plastically without fissuring as it expands from the state with the narrow lumen to the state with the wide lumen and that is impregnated with at least one medication that will gradually and preferably at a uniform rate be released to the patient once the prosthesis is in place.
A vascular prosthesis comprising a porous flexible tube of plastic with an elastomeric coating bonded to its outer surface and with both components medicated is admittedly known from German OS 2 941 281. This prosthesis, however, can expand to only a limited extent, and the expanding coating has a considerable range of elasticity. A considerable force of restoration is accordingly exerted on the stent in the expanded state and can undesirably reduce the expansion situation.
The present invention on the other hand exploits a wrapping material that plastically deforms as it expands and accordingly exerts no restoration force on the stent, ensuring persistent expansion.
Furthermore, the medicated wrapping material ensures precisely sited treatment of vascular conditions. The prosthesis can also be employed as a splint for tumorous stenoses and tumorous obstructions in the bile tract for example if it is impregnated with cytostatics or antiproliferatives.
Another embodiment of the prosthesis is a stent that can be implanted percutaneously with a catheter in a blood vessel or other cavity of the body. Once correctly positioned, the stent will expand from an initial state with a narrow lumen into a state with a lumen that is as wide as its placement will allow. This embodiment has a wrinkled lining around the as yet unexpanded stent. The lining smoothes out as the stent expands from the state with the narrow lumen to the state with the wide lumen. The lining is also impregnated with at least one medication. The medication will gradually and preferably at a uniform rate be released to the patient once the prosthesis is in place.
This prosthesis can also be adapted individually to the cross-section of the blood vessel it is implanted in even though the wrapping material itself does not stretch. Adaptation to the particular cross-section is, rather, achieved by the unfolding of the folded wrapping and its smoothing out against the wall of the vessel as the stent expands.
The lining in one practical advanced version of the invention is against either the outer surface or the inner surface of the prosthesis or both. It turns out to be practical in another advanced version of the invention for the lining to rest against all supporting areas of the prosthesis instead of just having a layer that rests against the inner and outer surfaces. This approach provides additional stabilization for the prosthesis in place.
This feature can easily be achieved when in accordance with still another advanced version the lining impregnated with at least one medication is applied by introducing the hollow structure or stent that supports the prosthesis into a mold along with liquid wrapping material that subsequently solidifies elastic. The advantage is that the walls of the embedded prosthesis will be absolutely smooth.
An implant is admittedly known from German OS 3 503 126 with a medicated collagen coating on the surface of a tubular support or stent. This coating, however, expands to only a limited extent, and the medication is released non-linearly.
The lining in another advantageous advanced version of the present invention is applied to the hollow structure or stent that supports the prosthesis once it has expanded to approximately half its final size. This ensures that the prosthesis will be uniformly coated even at maximal expansion.
To ensure the maximal possible absorption of medication while retaining the desirable mechanical properties of the prosthesis, the lining can be a flexible tubular membrane or sleeve wrapped around the prosthesis and secured. It will be practical in this event to ensure that the flexible tubular membrane adheres to the inner surface and/or the outer surface of the prosthesis and folds back around its ends.
Another sensible advanced version is characterized in that medications in the lining are dissolved in the wrapping material or included in the form of beads. This embodiment can also have openings in the inner and/or outer component of the lining to release the medication through. The openings expand as the prosthesis expands to the state with the wider lumen to the extent that medications are released once the lining has expanded to the utmost.
It can be practical for there to be more or less openings in the wall of the lining next to the lumen than there are in the wall next to the inner surface of the vessel. The ratio can be exploited to prescribe the dosage of medication to the lumen or wall of the blood vessel.
The wrapping material can also to advantage be biodegradable as long as its breakdown products provoke no undesirable side effects. When the material is biodegradable, the medication will be released not by diffusing out of the vehicle but by escaping as the vehicle th

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