| ARTERIAL REMODELING TECHNOLOGIES S.A. Patent applications |
| Patent application number | Title | Published |
|---|
| 20090105800 | METHODS OF MINIMIZING STENT CONTRACTION FOLLOWING DEPLOYMENT - The present invention provides methods for fabricating a stent using a preheating stage. The inventors have found a fabrication methods that result in the same and/or better product quality stent using a single step process performed at a temperature of below 65° C., more preferably below 60° C., most preferably below 55° C. Stent fabrication under such reduced temperature conditions reduces the exposure of the stent to adverse temperature conditions, thereby enabling the greater retention of the polymer's memory. Further, upon expansion, the stent does not contract to a smaller diameter but instead remains at a constant diameter or increases to a larger diameter. | 04-23-2009 |
| 20090099639 | METHOD FOR EXPANSION AND DEPLOYMENT OF POLYMERIC STRUCTURES INCLUDING STENTS - The invention is to methods of deploying polymeric biodegradable or non biodegradable stents by use of stepwise creases in the pressure placed upon the inner diameter of the stent to slowly increase the stent diameter. In one embodiment, the pressure on the interior stent diameter is slowly increased. The stent is allowed to acclimate to this diameter for a set period of time, and then the pressure is again increased. This series of steps continues until the stent reaches its final diameter and a final period of acclimatization is maintained prior to the removal of the deployment/delivery device. | 04-16-2009 |
| 20090095715 | METHODS OF POLYMERIC STENT SURFACE SMOOTHING AND RESURFACING TO REDUCE BIOLOGICALLY ACTIVE SITES - The present invention provides methods for fabricating a stent using a chemical treatment to smooth, polish or strengthen the stent. One such treatment involves exposing the stent to acetone or a similar solvent. In certain embodiments, the additional step comprises placing the stent in a bath containing acetone, or a similar solvent, where the bath also contains the polymer the stent is composed of. The acetone bath step may be conducted at a temperature that is below the glass transition temperature. The present invention also provides for methods of fabricating a stent using an acetone bath that comprises poly (lactic) acid. Other embodiments provide for methods of fabricating a stent using an acetone bath that comprises poly (lactic) acid and polyethylene glycol. | 04-16-2009 |
