Patent application number | Description | Published |
20090214601 | Porous Drug Delivery Devices and Related Methods - The invention relates to porous drug delivery devices and related methods. In an embodiment, the invention includes an active agent delivery system including a reservoir body defining a plurality of interconnected pores, an active agent disposed within the interconnected pores, and a first polymeric layer disposed over the reservoir body. In an embodiment, the invention includes an implantable medical device including a porous substrate defining a plurality of interconnected pores, an active agent disposed within the interconnected pores, and a first polymeric layer disposed over the reservoir body. In an embodiment, the invention includes a method of making an active agent delivery system including forming a porous reservoir body, inserting an active agent within the porous reservoir body, and applying a polymeric layer over the porous reservoir body. Other embodiments are also included herein. | 08-27-2009 |
20090269481 | COATING APPLICATION SYSTEM WITH SHAPED MANDREL - The invention relates to systems and methods for applying coatings to devices. In an embodiment, the invention includes a coating apparatus including a mandrel having a lengthwise axis and an exterior surface, the exterior surface of the mandrel defining a plurality of channels disposed parallel to the lengthwise axis, the mandrel configured to rotate around the lengthwise axis; and a spray head configured to direct a stream of material at the mandrel. In an embodiment the invention includes a method of applying a coating to a medical device. Other embodiments are also included herein. | 10-29-2009 |
20090280155 | Coating systems for the controlled delivery of hydrophilic bioactive agents - Described are coating systems for the controlled delivery of hydrophilic bioactive agents, for example, from implantable medical devices. The coating systems of the invention comprise (a) a polymeric basecoat layer containing one or more hydrophilic bioactive agents; and (b) an elution-controlling topcoat layer that comprises a poly(ethylene-co-vinyl acetate) copolymer. The elution rate of the hydrophilic bioactive agent can be controlled by varying the vinyl acetate concentration in the elution-controlling topcoat layer. | 11-12-2009 |
20100018602 | SYSTEMS AND METHODS FOR FILLING MEDICAL DEVICE LUMEN - The invention relates to systems and methods for filling a medical device with an active agent composition. In an embodiment, the invention includes a method for filling a medical device with an active agent composition. The method can include applying the active agent composition to the outside surface of the medical device, the medical device comprising a housing defining a lumen and a plurality of apertures. The method can also include contacting a surface of a press member against the outside surface of the medical device thereby pushing the active agent composition through the apertures and into the lumen of the medical device. Other embodiments are also included herein. | 01-28-2010 |
20100040766 | Method and apparatus for coating balloon catheters - A coating apparatus for coating the balloon portion of a balloon catheter is described. The coating apparatus includes a rotatable member in which the catheter portion of the balloon catheter is mounted and fixed, and which causes rotation of the balloon catheter. The apparatus also includes a support member in which the distal tip of the catheter is inserted and free to rotate; and a spray nozzle directing sprayed material on the balloon surface. The inventive configuration of the coating apparatus allows the balloon catheter to be rotated along its axis with insubstantial or no wobble, which significantly improves the quality of the coating applied to the surface of the balloon. | 02-18-2010 |
20100093686 | COATINGS WITH CRYSTALLIZED ACTIVE AGENT(S) AND METHODS - Coatings with crystallized active agent(s) and related methods are disclosed. One method includes selecting a solvent and a polymer, selecting a concentration of an active agent of at least a certain amount of saturation, forming a coating composition having the selected concentration of the active agent, and applying the coating composition to the medical device. Also disclosed is an elution control coating which includes active agent that is at least about 80% crystallized within one week of being disposed on a medical device. One method enhances the formation of active agent crystals within a coating layer by adjusting the concentration of the active agent in the coating solution to reach some percentage of the active agent saturation point. Another method includes increasing the rate of active agent nucleation within the coating. | 04-15-2010 |
20100158799 | METHOD AND COMPOSITION FOR BIOACTIVE AGENT RELEASE IN VIVO - A composition for bioactive agent release in vivo. The composition includes the bioactive agent in combination with a mixture of a first polymer component such as poly(butyl methacrylate) and a second polymer component such as poly(ethylene-co-vinyl acetate). | 06-24-2010 |
20100240789 | REAGENT AND METHOD FOR PROVIDING COATINGS ON SURFACES - A grafting reagent and related method of using the reagent to form a polymeric layer on a support surface, and particularly a porous support surface, in a manner that provides and/or preserves desired properties (such as porosity) of the surface. The reagent and method can be used to provide a thin, conformable, uniform, uncrosslinked coating having desired properties onto the surface of a preformed, and particularly a porous, polymeric substrate. The method includes the steps of a) providing a porous support surface, b) providing a nonpolymeric grafting reagent comprising a photoinitator group, c) providing one or more polymerizable monomers adapted to be contacted with the surface, in the presence of the grafting reagent, and to be polymerized upon activation of the photoinitiator; and d) applying the grafting reagent and monomer(s) to the surface in a manner, and under conditions, suitable to coat the surface with the grafting reagent and to cause the polymerization of monomers to the surface upon activation of the grafting reagent. | 09-23-2010 |
20100272774 | DEVICES AND METHODS FOR DELIVERY OF BIOACTIVE AGENTS - Embodiments of the invention include bioactive agent eluting devices. In an embodiment the invention includes a bioactive agent delivery device including a substrate, a hydrophilic polymer disposed on the substrate, and a substantially amorphous bioactive agent disposed on the surface of the hydrophilic polymer. In an embodiment, the invention includes a method of making a bioactive agent delivery device including depositing a hydrophilic polymer on a substrate forming a hydrophilic surface and depositing a substantially amorphous bioactive agent on the hydrophilic surface. In an embodiment, the invention includes a bioactive agent-eluting catheter including a catheter shaft and an expandable balloon disposed on the catheter shaft. Other embodiments are included herein. | 10-28-2010 |
20110008526 | MULTI-LAYERED COATINGS AND METHODS FOR CONTROLLING ELUTION OF ACTIVE AGENTS - Embodiments of the invention include multi-layered coatings for controlling the elution rates of active agents and methods. In an embodiment, the invention includes a method of applying an elution control coating to a substrate. The method can include depositing a coating solution onto the substrate to form a base layer. The method can also include selecting a desired concentration of the solvent based on a desired elution rate. The method can further include removing solvent from the base layer to reach a desired concentration of the solvent and depositing a layer of parylene on the base layer. In an embodiment, the invention can include a medical device including a substrate, a base layer, and a porous layer. The base layer can include a polymeric matrix and an active agent dispersed within the polymeric matrix. The porous layer can include parylene. Other embodiments are also included herein. | 01-13-2011 |
20110054417 | BIOACTIVE AGENT RELEASE COATING AND CONTROLLED HUMIDITY METHOD - A coating composition in the form of a one or multi-part system, and method of applying such a composition under conditions of controlled humidity, for use in coating device surfaces to control and/or improve their ability to release bioactive agents in aqueous systems. The coating composition is particularly adapted for use with medical devices that undergo significant flexion and/or expansion in the course of their delivery and/or use, such as stents and catheters. The composition includes the bioactive agent in combination with a first polymer component such as polyalkyl(meth)acrylate, polyaryl(meth)acrylate, polyaralkyl(meth)acrylate, or polyaryloxyalkyl(meth)acrylate and a second polymer component such as poly(ethylene-co-vinyl acetate). | 03-03-2011 |
20110104392 | GRAFTING APPARATUS AND METHOD OF USING - This invention provides a coating apparatus and methods for coating a device, such as an industrially or medically applicable device. The apparatus is suitable for providing a coating using a photoactivatable compound and a polymerizable compound. In another aspect, the apparatus and methods are useful for coating a device wherein the surface of the device has small pores or apertures. The apparatus includes of containers suitable for holding the object to be coated and the coating solution, a gas supply source for supplying gas to solution, an irradiation station for providing light used in the coating process, and a conveyor mechanism to direct the containers to and from the irradiation station. | 05-05-2011 |
20120004339 | REAGENT AND METHOD FOR PROVIDING COATINGS ON SURFACES - A grafting reagent and related method of using the reagent to form a polymeric layer on a support surface, and particularly a porous support surface, in a manner that provides and/or preserves desired properties (such as porosity) of the surface. The reagent and method can be used to provide a thin, conformable, uniform, uncrosslinked coating having desired properties onto the surface of a preformed, and particularly a porous, polymeric substrate. The method includes the steps of a) providing a porous support surface, b) providing a nonpolymeric grafting reagent comprising a photoinitator group, c) providing one or more polymerizable monomers adapted to be contacted with the surface, in the presence of the grafting reagent, and to be polymerized upon activation of the photoinitiator; and d) applying the grafting reagent and monomer(s) to the surface in a manner, and under conditions, suitable to coat the surface with the grafting reagent and to cause the polymerization of monomers to the surface upon activation of the grafting reagent. | 01-05-2012 |
20120004605 | CATHETER ASSEMBLY - A catheter assembly includes an expandable and collapsible structure having an outer surface. The expandable and collapsible structure is adapted to expand between a contracted state and a dilated state. A coating is disposed on the outer surface of the expandable and collapsible structure. The coating includes a bioactive agent. A sleeve is disposed over the coating. The sleeve is adapted to expand between a compressed state and an enlarged state and to return to the compressed state. The sleeve defines a plurality of openings in the compressed state. An outer diameter of the coating is less than an outer diameter of the sleeve when the expandable and collapsible structure is in the contracted state and greater than the outer diameter of the sleeve when the expandable and collapsible structure is in the dilated state. | 01-05-2012 |
20120021038 | COATING COMPOSITION - A wound spacer device comprising multiple beads connected by non-absorbable suture material is disclosed. The device can be applied, for example, by a first responder to an injured individual, or can be applied by a trauma treatment facility, such as a Level 2 medical unit. In typical embodiments the device allows for site-specific controlled elution of an antimicrobial agent, such as Tobramycin, including defined elution over a period of time, such as 48 or 72 hours. | 01-26-2012 |
20120083733 | CATHETER ASSEMBLY WITH GUARD - A catheter assembly includes an expandable and collapsible structure having an outer surface. The expandable and collapsible structure is adapted to expand between a contracted state and a dilated state. A guard is bonded to the outer surface of the expandable and collapsible structure. The guard and the expandable and collapsible structure cooperatively define a plurality of reservoirs. A coating disposed in the reservoirs. The coating includes a bioactive agent. The coating protrudes from the reservoirs when the expandable and collapsible structure is expanded to the dilated state. | 04-05-2012 |
20120100187 | COATINGS AND METHODS FOR CONTROLLED ELUTION OF HYDROPHILIC ACTIVE AGENTS - Embodiments of the invention include multi-layer coatings and methods for controlling the elution of hydrophilic active agents. In an embodiment, the invention includes a medical device including a substrate, a primer polymer layer disposed on the substrate, an expandable layer disposed on the primer polymer layer, and a hydrophilic active agent dispersed within the expandable layer. In an embodiment, the invention includes a method of forming a medical device including depositing a primer layer onto a substrate, the primer layer comprising a primer polymer. The method can further include depositing an expandable layer onto the primer layer, the expandable layer including an expandable polymer, and a hydrophilic active agent. The expandable layer can be deposited with a solvent that is effective to solvate both the expandable polymer and the primer polymer. Other embodiments are also included herein. | 04-26-2012 |
20120165786 | LIPID COATING FOR MEDICAL DEVICES DELIVERING BIOACTIVE AGENT - The present invention relates compositions for delivering therapeutic agents from a medical device including an expandable and collapsible structure and methods employing them. A lipid coating including one or more fatty acids increases the amount of therapeutic agent released from the device at the delivery site. The therapeutic agent can be in a matrix including a hydrophilic polymer or an amphiphilic polymer. Release and adhesion coatings can also facilitate delivery of therapeutic agent. | 06-28-2012 |
20120172796 | COMPOSITION FOR INTRAVASCULAR DELIVERY OF THERAPEUTIC COMPOSITION - The present invention relates to a pharmaceutical composition for intravascular delivery of a therapeutic agent, such as paclitaxel, rapamycin, or an analog thereof. The composition includes the therapeutic agent and a biocompatible solvent, such as glycofurol. The composition can aid tissue penetration by the therapeutic agent. A catheter assembly that protects the pharmaceutical composition from the surroundings can be used for its intravascular delivery. | 07-05-2012 |
20120172839 | DOUBLE WALL CATHETER FOR DELIVERING THERAPEUTIC AGENT - The present invention relates to a catheter assembly that can deliver a therapeutic composition. The catheter assembly can include an outer balloon with openings for releasing the therapeutic composition. When the catheter assembly is in its contracted state, the openings are closed, and the assembly retains the therapeutic composition. When the catheter assembly is in its dilated state, the openings are open, and the therapeutic composition is released. The present invention also includes methods of making and using such a catheter assembly. | 07-05-2012 |
20130337147 | APPARATUS AND METHODS FOR COATING MEDICAL DEVICES - Embodiments of the invention include apparatus and methods for coating drug eluting medical devices. In an embodiment, the invention includes a coating apparatus including a coating application unit comprising a movement restriction structure; a fluid applicator; and an air nozzle. The apparatus can further include a rotation mechanism and an axial motion mechanism, the axial motion mechanism configured to cause movement of at least one of the coating application unit and the rotation mechanism with respect to one another. Other embodiments are also included herein. | 12-19-2013 |
20140121597 | APPARATUS AND METHODS FOR COATING MEDICAL DEVICES - Embodiments of the invention include apparatus and methods for coating medical devices. In an embodiment, the invention includes a coating apparatus including a coating application unit including a fluid applicator; a first rotation mechanism and a second rotation mechanism; and a controller, wherein the controller causes the first rotation mechanism and the second rotation mechanism to rotate a medical device at substantially the same speed, wherein the speed is greater than 500 rotations per minute. In an embodiment, the invention includes a method of coating a medical device including rotating a medical device with a rotation mechanism at a speed of greater than 500 rotations per minute; contacting the medical device with a fluid applicator; and applying a coating solution to the device. In an embodiment, the invention includes a medical device. In some embodiments a surface of a shaft of the device comprises high points and low points. | 05-01-2014 |
20140161964 | COATING APPARATUS AND METHODS - Embodiments of the invention include coating apparatuses and related methods. In an embodiment, the invention includes a coating apparatus. The coating apparatus can include a motor, a rotating contact member, a fluid applicator, a fluid pump, and a base member. The fluid applicator can include an orifice. The rotating contact member can be configured to rotate around a device to be coated that does not rotate. The rotating contact member can be configured to move along the lengthwise axis of a device to be coated. In an embodiment, the invention includes a method of coating a medical device. The method of coating a medical device can include a rotating a contact member around the outer diameter of a non-rotating medical device, applying a coating solution to the outer diameter of the non-rotating medical device at a position adjacent to the contact member, and moving at least one of the contact member and the non-rotating medical device with respect to one another so that the contact member moves with respect to the lengthwise axis of the non-rotating medical device. Other embodiments are also included herein. | 06-12-2014 |
20140328998 | APPARATUS AND METHODS FOR COATING MEDICAL DEVICES - Embodiments of the invention include apparatus and methods for coating drug eluting medical devices. In an embodiment, the invention includes a coating apparatus including a coating application unit comprising a movement restriction structure; a fluid applicator; and an air nozzle. The apparatus can further include a rotation mechanism and an axial motion mechanism, the axial motion mechanism configured to cause movement of at least one of the coating application unit and the rotation mechanism with respect to one another. Other embodiments are also included herein. | 11-06-2014 |