Abstract: A catheter pump system is provided herein. The catheter pump system includes a catheter pump, a fluid system located within the catheter pump, and at least one filter membrane. The catheter pump has a proximal end, a distal end, and an elongate body extending therebetween, and the elongate body defining at least an inner lumen. The fluid system is configured to pressurize the catheter pump with fluid. The at least one filter membrane is configured to reduce an amount of particles within the fluid of the fluid system.

Abstract: A catheter pump system is provided herein. The catheter pump system includes a catheter pump, a fluid system located within the catheter pump, and at least one filter membrane. The catheter pump includes a proximal end, a distal end, and an elongate body extending therebetween, and the elongate body defines at least an inner lumen. The fluid system is configured to pressurize the catheter pump with fluid. The at least one filter membrane is configured to reduce an amount of particles within the fluid of the fluid system and preserve fluid flow within the fluid system.

Abstract: A catheter assembly for use in a percutaneous heart pump includes a cannula housing defining an interior space, an impeller disposed within the interior space defined by the cannula housing, and a flexible atraumatic tip positioned distal of the cannula housing. A guidewire is coupled to the flexible atraumatic tip and extends proximally from the flexible atraumatic tip. The guidewire extends at least partly along an exterior of the cannula housing or at least partly within the interior space defined by the cannula housing between the impeller and the cannula housing.

Abstract: A catheter assembly for use in a percutaneous heart pump is provided. The catheter assembly may include a GWG that includes a hypotube and a sleeve section coupled to a distal end of the hypotube. The sleeve section is configured to extend across a distal septum of the percutaneous heart pump when the GWG is inserted into the percutaneous heart pump, and facilitate reducing deformation of the distal septum while the sleeve section extends across the distal septum.

Abstract: A medical device includes a balloon expanded scaffold crimped to a balloon catheter. The scaffold has a network of rings formed by struts connected at crowns and links connecting adjacent rings. The scaffold has a polymer coating and is crimped to the balloon. The scaffold is rotated, or allowed to rotate during crimping to improve results from crimping, such as reduced damage to the coating.

Abstract: A medical device includes a balloon expanded scaffold crimped to a balloon catheter. The scaffold has a network of rings formed by struts connected at crowns and links connecting adjacent rings. The scaffold has a polymer coating and is crimped to the balloon. The scaffold is rotated, or allowed to rotate during crimping to improve results from crimping, such as reduced damage to the coating.

Abstract: A system and method for coating an expandable member of a medical device comprising a support structure to support the expandable member and a dispenser positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A guide maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the expandable member relative to the at least one outlet.

Abstract: Method of modifying the coating of a surface of a medical device by applying a coating to the surface of the medical device, exposing the medical device to an environmental condition that alters the coating morphology, and drying the coating on the medical device. The disclosed subject matter also provides a coated medical device whose one or more surfaces have been modified by this method.

Abstract: Method of coating an expandable member, e.g. balloon, is provided, the method comprising providing an expandable member having an outer surface. The method includes a plasma treatment with a supply of gas performed on at least a portion of the outer surface of the expandable member. A therapeutic agent is applied on at least the plasma treated portion of the outer surface of the expandable member after the plasma treatment is performed. The plasma treatment can reduce the adhesion of therapeutic agent to the surface of the expandable member. A medical device made by the disclosed method is also provided.

Abstract: Disclosed are stent holding devices having a support mandrel and one or more stent retaining fixtures disposed on the mandrel. The retaining fixture may include a character identifier to facilitate tracking a stent mounted on the holding device. The retaining fixture may include a conical protrusion and a conical recess to allow any number of retaining fixtures to engage each other and be stacked on the mandrel. The retaining fixture may include a tubular member having a spiral cut that enables the diameter of the tubular member to be adjusted to allow for a frictional fit on the mandrel. The retaining fixture may have a Z-shaped or T-shaped structure configured to retain a stent. The stent retaining fixture may also have a filament for retaining a stent.

Abstract: Method and system to coat an expandable member of a medical device comprising a support structure to support the expandable member and an applicator positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A tracking mechanism maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the at least one outlet relative to the expandable member.

Abstract: A system and method for coating an expandable member of a medical device comprising a support structure to support the expandable member and a dispenser positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A guide maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the expandable member relative to the at least one outlet.

Abstract: A system and method for coating an expandable member of a medical device comprising a support structure to support the expandable member and a dispenser positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A guide maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the expandable member relative to the at least one outlet.

Abstract: A system and method for coating an expandable member of a medical device comprises providing a dispenser in fluid communication with a fluid source with the dispenser having at least one outlet to dispense fluid of the fluid source therefrom. The outlet(s) of the dispenser is positioned proximate a surface of an expandable member, with relative movement between the outlet(s) and the surface of the expandable member established along a coating path, and fluid is dispensed from the dispenser to form a substantially continuous bead of fluid between the at least one outlet and the surface of the expandable member along the coating path, and simultaneously drying the fluid while dispensing the fluid from the dispenser to control flow of fluid on the surface of the expandable member. The fluid source can include a variety of therapeutic agents.

Abstract: A system and method for coating an expandable member of a medical device comprises providing a dispenser in fluid communication with a fluid source with the dispenser having at least one outlet to dispense fluid of the fluid source therefrom. The outlet(s) of the dispenser is positioned proximate a surface of an expandable member, with relative movement between the outlet(s) and the surface of the expandable member established along a coating path, and fluid is dispensed from the dispenser to form a substantially continuous bead of fluid between the at least one outlet and the surface of the expandable member along the coating path, and simultaneously drying the fluid while dispensing the fluid from the dispenser to control flow of fluid on the surface of the expandable member. The fluid source can include a variety of therapeutic agents.

Abstract: The present invention relates to methods of applying a drug—polymer coating layer onto an implantable medical device or another substrate, and the use of a choice of solvents to adjust the release of the drug from the coating. The drug to polymer ratio is about 1:1 to 1:3 on a mass basis. The polymer and the drug are hydrophobic.

Abstract: Method and system to coat an expandable member of a medical device comprising a support structure to support the expandable member and an applicator positioned with at least one outlet proximate a surface of an expandable member. A drive assembly establishes relative movement between the at least one outlet and the surface of the expandable member to apply fluid on the surface of the expandable member along a coating path. A tracking mechanism maintains a substantially fixed distance between the at least one outlet and the surface of the expandable member during relative movement therebetween by displacing the at least one outlet relative to the expandable member.

Abstract: Method of modifying the coating of a surface of a medical device by applying a coating to the surface of the medical device, exposing the medical device to an environmental condition that alters the coating morphology, and drying the coating on the medical device. The disclosed subject matter also provides a coated medical device whose one or more surfaces have been modified by this method.

Abstract: Method of coating an expandable member is provided. The method comprises providing an expandable member having deflated and fully expanded configurations, and inflating the expandable member with a select amount of inflation medium, the select amount of inflation medium applied at a nominal pressure, disposing a therapeutic agent on at least a portion of the expandable member; and partially deflating the expandable member, wherein partially deflating includes releasing an initial amount of inflation medium from the expandable member such that the expandable member partially re-folds. The therapeutic agent can be dried on the expandable member, and a remaining amount of inflation medium can be withdrawn such that the expandable member resumes the completely folded configuration.

Abstract: Method of coating an expandable member, e.g. balloon, is provided, the method comprising providing an expandable member having an outer surface. The method includes a plasma treatment with a supply of gas performed on at least a portion of the outer surface of the expandable member. A therapeutic agent is applied on at least the plasma treated portion of the outer surface of the expandable member after the plasma treatment is performed. The plasma treatment can reduce the adhesion of therapeutic agent to the surface of the expandable member. A medical device made by the disclosed method is also provided.