Functionalizing implantable devices with a poly (diol co-citrate) polymer

a technology of diol cocitrate and implantable devices, which is applied in the direction of non-embryonic pluripotent stem cells, prosthesis, drug compositions, etc., can solve the problems of blood vessel walls in which the stent is placed to become disrupted or injured, potential trauma or injury to the expanded passage or vessel, etc., to reduce the thrombogenicity of the graft and the effect of less thrombogenicity

Inactive Publication Date: 2007-09-06
NORTHWESTERN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0021] The invention provides methods of decreasing the thrombogenicity of a graft comprising coating said graft with a coating comprising a citric acid polyester having the generic formula (A-B-C)n, wherein A is a linear

Problems solved by technology

In addition, balloons such as angioplasty or dilation balloons are expanded to open a body passage or vessel lumen, thereby causing potential trauma or injury to the expanded passage or vessel.
While implantable medical devices have gained widespread use, they do have attendant drawback.
For example, introduction of a stent into the vascular system of a patient may cause the blood vessel walls into which the stent is being placed to become disrupted or injured.
Moreover, if the medical device is left within the patient for an extended period of time, thrombus often forms on the device itself, again causing stenosis.
As a result, the patient is placed at risk of a variety of complications, including heart attack, pulmonary embolism, and stroke.
Thus, the use of such a medical device can entail the risk of precisely the problems that its use was intended to ameliorate.
Another site of injury during implantation of medical devices is the tissue at and beyond the ends of the implanted stent.
Regardless of the cause of the trauma or injury to the vessel wall, the tissue will react such as with smooth muscle cell proliferation and the like thereby creating an adverse reaction and subsequent closure or stenosis of the vessel.
Indeed, atherosclerotic vascular disease, in the form of coronary artery and peripheral vascular dis

Method used

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  • Functionalizing implantable devices with a poly (diol co-citrate) polymer
  • Functionalizing implantable devices with a poly (diol co-citrate) polymer
  • Functionalizing implantable devices with a poly (diol co-citrate) polymer

Examples

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example 1

Biodegradable Elastomeric Polymers

[0072] The coating compositions of the invention are based on biodegradable elastomeric polymers of poly(diol) citrate molecules. Such molecules typically comprising a polyester network of citric acid copolymerized with a linear aliphatic di-OH monomer in which the number of carbon atoms ranges from 2 to 20. Polymer synthesis conditions for the preparation of these molecules vary from mild conditions, even at low temperature (less than 100° C.) and no vacuum, to tough conditions (high temperature and high vacuum) according the requirements for the materials properties. By changing the synthesis conditions (including, but not limited to, post-polymerization temperature, time, vacuum, the initial monomer molar ratio, and the di-OH monomer chain length) the mechanical properties of the polymer can be modulated over a wide range. This series of polymers exhibit a soft, tough, biodegradable, hydrophilic properties and excellent biocompatibility in vitro...

example 2

Results and Discussion

[0100] ePTFE grafts are manufactured by a heating, extruding, and longitudinal stretching at a high strain rate and cracking into a non-woven porous tube. ePTFE grafts are characteristic of a node-fibril structure (FIG. 1A) in which non-continuous nodes connect through fine fibrils. Average internodal distance is about 30 μm for standard ePTFE grafts. ePTFE grafts trigger inflammation, thrombosis and incomplete endothelium formation, the major causes for graft failure together with the compliance mismatch. Many attempts have been tried to modify the lumen of ePTFE grafts to abolish their anti-adhesion properties and improve endothelialization including carbon coating to increase surface electronegativity for reduced thrombus formation31,32, and attaching anticoagulant or antithrombotic agents to the grafts15,33,34 13-17 through chemical or physical modifications. However, there are still no satisfactory grafts with a long term patency available, especially for...

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Abstract

The present invention is directed to a novel poly(diol citrates)-based coating for implantable devices. More specifically, the specification describes methods and compositions for making and using implantable devices coated with citric acid copolymers or citric acid copolymers impregnated with therapeutic compositions and/or cells.

Description

[0001] The present application claims benefit of U.S. Provisional Application No. 60 / 771,348 filed Feb. 8, 2006. The entire text of the aforementioned application is incorporated herein by referenceFIELD OF THE INVENTION [0002] The present invention describes methods and compositions for coating implantable devices with a polymer to improve the long-term biocompatibility and / or patency of the device. BACKGROUND [0003] Implantable medical devices are used in the treatment and assessment of a variety of medical conditions. Such devices may be introduced into the body for a short period of time or may be placed therein permanently and have been used for the treatment of diseased, injured, or deformed body vessels. In cases where malfunctioning body vessels have reduced inner diameters, there is usually reduced flow of vital fluid or gas through the vessels and in extreme cases, the vessels often are occluded. Implantable medical devices have proven useful to open and / or expand, or to o...

Claims

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Application Information

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IPC IPC(8): A61F2/06A61F2/02C12N5/08A61L33/00B05D3/00C12N5/074
CPCA61L27/16A61L31/10A61L27/3804A61L27/48A61L27/58A61L33/068C12N5/0692C12N2533/40A61L27/34C08L27/18C08L67/04A61L27/507Y10T428/31663Y10T428/31565Y10T428/31681Y10T428/3154Y10T428/31736Y10T428/31797Y10T428/31786Y10T428/3179Y10T428/31507A61P31/04A61P7/02
Inventor AMEER, GUILLERMOYANG, JIAN
Owner NORTHWESTERN UNIV
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