Abstract: The present invention provides a stent comprising a tubular flexible body having a wall with a web structure that is expandable from a contracted delivery configuration to deployed configuration. The web structure comprises a plurality of neighboring web patterns, where each web patterns is composed of adjoining webs, and the web patterns are interconnected. Each adjoining web comprises a central section interposed between two lateral sections to form concave or convex configurations.

Abstract: Apparatus and methods for providing distal protection during a medical procedure comprising a vascular filter having a self-expanding, porous foam body that conformably seals against a vessel wall and captures emboli within one or more recesses. The filter is coupled to a distal region of an elongated member, such as a guide wire. Delivery systems for use with filters of the present invention and methods of using the apparatus of the present invention also are provided.

Abstract: Apparatus and methods are provided for localized, minimally invasive administration of sclerotherapy in the treatment of varicose veins. A treatment site within a vein is isolated from blood flow through the vain. Sclerotherapeutic agents are delivered to the isolated vessel segment. A substantial portion of the agents are then removed from the vein, and isolation is removed from the treatment site. Inflammation, clotting, scarring, and closure of the varicose vein ensues at the treatment site. In a preferred embodiment, this technique is accomplished with a catheter having an inflatable member. The inflatable member is expandable to a deployed configuration in which its central region is of reduced cross-section as compared to its proximal and distal regions. The central region comprises one or more perforations extending through the inflatable member so that sclerotherapeutic agents may be delivered through the perforations.

Abstract: To effect a throttling of the blood flow which with some indications is required in vessels, a stent-catheter arrangement (1) according to the invention comprises a catheter with an expandable balloon (3) and a stent (4) which can be placed on the balloon. The stent (4) is provided with a cover and the balloon (3) has a section (5) of reduced expandability approximately in the central portion thereof. When the balloon is expanded, it is thus possible to form a throttle section of the stent which is created at the place where the balloon (3) includes a section (5) of reduced expandability.

Abstract: The present invention provides a stent comprising a tubular flexible body having a wall with a web structure that is expandable from a contracted delivery configuration to deployed configuration. The web structure comprises a plurality of neighboring web patterns, where each web patterns is composed of adjoining webs, and the web patterns are interconnected. Each adjoining web comprises a central section interposed between two lateral sections to form concave or convex configurations.

Abstract: A radial expansible stent for implanting in a blood vessel in the region of a vessel branch has a hollow cylindrical element, and the hollow cylindrical element at least over a portion is provided with a plurality of radial openings having edges, the edges at least locally being strip-shaped and forming shaped formations.

Abstract: Apparatus and methods for providing distal protection during a medical procedure comprising a vascular filter having a self-expanding, porous foam body that conformably seals against a vessel wall and captures emboli within one or more recesses. The filter is coupled to a distal region of an elongated member, such as a guide wire. Delivery systems for use with filters of the present invention and methods of using the apparatus of the present invention also are provided.

Abstract: The present invention relates to a stent (1) comprising a tubular flexible body (2) whose wall (3) has a web structure (4) which can pass from a non-expanded state into an expanded state. The web structure (4) comprises a plurality of neighboring web patterns (5, 6) which, in turn, consist of adjoining webs (9, 10 and 9′, 10′, respectively). The web patterns (5, 6) are interconnected. Each web (9, 10 and 9′, 10′ respectively) comprises three portions (9a, 9b, 9c and 10a, 10b, 10c, respectively) that are arranged at an angle (&agr;, &bgr;) relative to one another.

Abstract: The present invention is directed to bistable cells and their use in devices, particularly medical devices such as stents, clamps and valves. An expandable stent formed of a plurality of bistable cells is described. The stent has two or more stable configurations, including a first stable configuration with a first diameter and a second stable configuration with a second, larger diameter. A valve comprising a bistable cell for use in eliminating incontinence is also disclosed.

Abstract: A method of making a stent delivery system is provided in which a delivery catheter has a balloon that extends non-uniformly into interstices of a stent. In accordance with the method a balloon/stent/crimping tube assembly is placed in a crimping tool, the balloon is inflated, and the crimping tool is actuated to compress the stent on the outside of the balloon without application of heat or chemicals, thereby causing creases of the balloon to extend non-uniformly into the interstices of the stent. Optionally, pillows may be formed in the balloon to prevent longitudinal movement of the stent with respect to the balloon during intravascular delivery. One or more secondary crimpings also may be performed to achieve a smoother delivery profile.

Abstract: Apparatus and methods are provided for localized, minimally invasive administration of sclerotherapy in the treatment of varicose veins. A treatment site within a vein is isolated from blood flow through the vain. Sclerotherapeutic agents are delivered to the isolated vessel segment. A-substantial portion of the agents are then removed from the vein, and isolation is removed from the treatment site. Inflammation, clotting, scarring, and closure of the varicose vein ensues at the treatment site. In a preferred embodiment, this technique is accomplished with a catheter having an inflatable member. The inflatable member is expandable to a deployed configuration in which its central region is of reduced cross-section as compared to its proximal and distal regions. The central region comprises one or more perforations extending through the inflatable member so that sclerotherapeutic agents may be delivered through the perforations.

Abstract: Apparatus and methods for stenting are provided comprising a self-expandable stent that is at least partially covered with a biocompatible material configured to prevent dynamic self-expansion of the stent. The biocompatible material is irreversibly expandable by suitable means, for example, a balloon. Thus, the apparatus may be tailored in-vivo to a vessel profile, in a manner similar to a balloon-expandable stent, but maintains the flexibility required for use in tortuous anatomy and in vessels that undergo temporary deformation, in a manner similar to a self-expandable stent. Apparatus is also provided for stenting at a vessel branching, and for localized delivery of therapeutic agents.

Abstract: The present invention is directed to bistable cells and their use in devices, particularly medical devices such as stents, clamps and valves. An expandable stent formed of a plurality of bistable cells is described. The stent has two or more stable configurations, including a first stable configuration with a first diameter and a second stable configuration with a second, larger diameter. A valve comprising a bistable cell for use in eliminating incontinence is also disclosed.

Abstract: Apparatus and methods for stenting are provided comprising a stent attached to a porous biocompatible material that is permeable to endothelial cell ingrowth, but impermeable to release of emboli of predetermined size. Preferred stent designs are provided, as well as preferred manufacturing techniques. Apparatus and methods are also provided for use at a vessel branching. Moreover, embodiments of the present invention may comprise a coating configured for localized delivery of therapeutic agents. Embodiments of the present invention are expected to provide enhanced embolic protection, improved force distribution, and improved recrossability, while reducing a risk of restenosis and thrombus formation.