Abstract: Wireguides and methods of making wireguides for delivery systems are provided. A wireguide for a delivery system according to the invention facilitates placement of an intraluminal medical device at a desired point of treatment. The wireguides include a plurality of indicia, each of which has a configuration that differs from that of at least one other indicium of the plurality of indicia.

Abstract: Delivery systems and methods of making delivery systems are provided. A delivery system according to the invention facilitates delivery of an intraluminal medical device to a point of treatment in a body vessel. A dilator includes a means for resisting relative movement between an associated intraluminal medical device and the dilator during relative movement between the dilator and an associated tubular member disposed about the dilator.

Abstract: Prosthetic valves for regulating fluid flow are provided. The valves have at least one leaflet that includes a plurality of pores that allow a quantity of retrograde flow to pass through the leaflet when the valve is in a closed configuration.

Abstract: Medical device delivery systems and related kits and methods for placing multiple expandable medical devices within a body vessel are provided. A delivery system includes first and second expandable medical devices having the same or different dimensions. Placement of the first and second expandable medical devices in a body vessel can be achieved without requiring withdrawal of one or more components of the delivery system and insertion of secondary components.

Abstract: A coating can be applied to an endolumenal wall of a medical device by positioning an optical fiber within the lumen, providing a photo-activated chemical to contact the endolumenal wall, supplying the optical fiber with radiation capable of activating the chemical within the lumen, and withdrawing the optical fiber from the lumen at a controlled rate while the radiation is being emitted from the optical fiber to activate the chemical in close proximity to the endolumenal wall.

Abstract: Delivery systems, methods of making delivery systems, and methods of treatment are provided. A delivery system according to the invention facilitates a visual inspection of an intraluminal medical device included in the delivery system.

Abstract: The present invention, in one embodiment, provides an implantable intraluminal fluid flow control system comprising an interface and a flow-modifying device positioned at a flow-modifying effective distance from the interface within the lumen of a body vessel. In one embodiment, the invention relates to maintaining, regulating or varying the fluid flow within a body vessel to preserve, promote, alter or enhance remodeling of tissue at the interface. Remodeling can include the resorption and replacement of implanted remodelable material with autologous tissue. The interface can comprise remodelable material such as small intestine submucosa. In one embodiment, one or more interfaces are positioned at flow-modifying effective distances from one or more flow-modifying devices. Related medical devices, kits and methods of treatment are also provided in some embodiments.

Abstract: Medical devices for implantation in a body vessel, and methods of using and making the same, are provided. Embodiments of the invention relate to medical devices comprising a frame having cross-section that can substantially conform to body vessel shapes that have elliptical or circular cross-sections, and dynamically respond to changes in the cross-section of a body vessel. Frames with directionally-dependent radial compressibility or expandability characteristics are also provided. Medical devices comprising a frame and one or more valve members adapted to regulate fluid flow in a body vessel, such as a vein, are also provided.

Abstract: Medical devices for implantation in a body vessel, and methods of using and making the same, are provided. Embodiments of the invention relate to medical devices comprising a frame having a compliance that can change upon implantation of the medical device within the lumen of a body vessel. Controlled fracture or bioabsorption of frame material can, in some embodiments, increase the compliance of a frame after implantation. Medical devices comprising a frame and one or more valve members adapted to regulate fluid flow in a body vessel, such as a vein, are also provided.

Abstract: A delivery system (10) for implanting a medical device (30) such as a venous valve into the vasculature of a patient. The delivery system includes a delivery catheter (11) having a device-containing portion (15) adjacent to the distal end (14) thereof, and an inner member (16) extending through the catheter and beyond the distal end thereof, to an atraumatic distal tip portion (17) forward of the catheter distal end. Delivery catheter (11) includes inner tube (122), flat wire coil (123) compression fitted therearound, and outer tube (112) mechanically connected to roughened outer surface (126) of the inner tube through the spacing of the coil. Delivery catheter (11) can be provided with a window (184) to allow fluoroscopic visualization of a stent valve within the delivery system.

Abstract: The present invention provides remodelable materials for retracting the interior walls of a body vessel via remodeling processes. Also provided are methods, kits and devices for the same.

Abstract: Valvulotome devices comprising a cutting edge are provided. Some valvulotome devices incisably engage a venous valve leaflet within a body vessel while at least a portion of the cutting edge is oriented substantially parallel to the longitudinal axis of the valvulotome device. Valvulotome devices are preferably configured to slidably engage a venous valve leaflet upon translation of the valvulotome device along the longitudinal axis of a body vessel. A valvulotome device can further comprise one or more valvulotome arms of variable lengths and dimensions. In some embodiments, the valvulotome device can be self expanding. Embodiments of the invention also provide delivery systems comprising a valvulotome device. The present invention also provides for methods of using a valvulotome device. Kits comprising a valvulotome device are also provided.

Abstract: A venous valve prosthesis having a substantially non-expandable, valve portion comprising a valve-closing mechanism, such as a pair of opposing leaflets; and an anchoring portion, such as one or more self-expanding frames or stents that are expandable to anchor the prosthesis at the implantation site. In one embodiment, the rigid valve portion includes a deposition of material such as pyrolitic carbon to reduce the thrombogenecity of the blood-contacting surfaces. The anchoring portions preferably include a covering, such as a tubular construct of synthetic or collagen-derived material (such as a bioremodelable ECM material), which attaches about the support structure such that blood flow is directed through the valve mechanism as it transitions from the larger diameter anchoring portion to the intermediate, smaller-diameter portion of the prosthesis.

Abstract: Prosthetic valves for implantation in a body vessel are provided. Prosthetic valves according to the invention comprise first and second frame members and a graft member at least partially disposed between the first and second frame members. The graft member forms a valve that permits fluid flow through the body vessel in a first direction and substantially prevents fluid flow through the body vessel in a second, opposite direction.

Abstract: Prosthetic valve devices for implantation in body vessels, and methods of making same, are provided. The device has a main body with first and second ends and defining a lumen, with the second end being inverted into the lumen. A valve is disposed at the second end. In multiple valve devices, valves are disposed at the first and second ends, and individually may be inverted into the lumen. The prosthetic valve devices may further include a support structure such as a stent. Methods of making a prosthetic valve device include providing a main body having first and second ends and defining a lumen, forming a valve at the second end, and inverting the second end into the lumen. Methods may further comprise forming multiple valves and may also include attaching a support structure.