Abstract: A dilator for sheathless access to a vessel of a patient, having a distal portion with a maximal outer diameter that extends from a distal end to a guidewire exit port and a proximal portion with a reduced profile that extends from the guidewire exit port to the proximal end and a lumen that extends between the distal end and the guidewire exit port. A first guidewire may be positioned within the vessel and the dilator advanced over the guidewire. A guide catheter may then be advanced over the dilator.

Abstract: In accordance with the present invention, there is provided a stent for insertion into a vessel of a patient. The stent is a tubular member having front and back open ends and a longitudinal axis extending there between. The tubular member has a first smaller diameter for insertion into a patient and navigation through the vessels, and a second larger diameter for deployment into the target area of a vessel. The tubular member is made from a plurality of adjacent hoops extending between the front and back ends. The hoops include a plurality of longitudinal struts and a plurality of loops connecting adjacent struts. The stent further includes a plurality of bridges having loop to bridge connections which connect adjacent hoops to one another. The bridge to loop connection points are separated angularly with respect to the longitudinal axis. The bridges have one end attached to a loop, another end attached to a loop on an adjacent hoop.

Abstract: An atherectomy system that utilizes an anchoring balloon with a rotary debulker and a crossing balloon to remove or debulk lesions formed on the interior wall surface of a body vessel. The system may include a first balloon coupled to a first tubular member, a rotary debulker coupled to a second tubular member, a second balloon coupled to both the third tubular member and the axially moveable fourth tubular member such that the second balloon is disposed inside the third tubular member. Methods for operating this device are also provided.

Abstract: A dilator for sheathless access to a vessel of a patient having a tubular distal member with a skived portion on the proximal end and a proximal member with a skived portion on the distal end. The respective skived portions overlap at a transition region and form a rapid exchange port that communicates with the lumen of the distal member. The proximal member and the distal member may be secured together with transition tubing that is coaxially disposed over the distal and of the proximal member and extends over the skived portion of the distal member within a projected circumference of the distal member.

Abstract: Various embodiments for a stent delivery device that utilizes a first mode of actuation for slow retraction of an outer sheath and a second mode of actuation for fast retraction of the outer sheath during delivery of a self-expanding implantable device such as a stent or stent graft.

Abstract: Various embodiments for a stent delivery device that utilizes a wheel for slow retraction of an outer sheath and a slider for fast retraction of the outer sheath during delivery of a self-expanding implantable device such as a stent or stent graft.

Abstract: A stent is formed from an at least partially cylindrical non-bioresorbable framework with a longitudinal zone of the stent that extends from the proximal end of the framework to the distal end and is defined by opposing longitudinal edges. A plurality of bioresorbable struts are secured to opposing longitudinal edges of the longitudinal zone. The bioresorbable struts hold the opposing longitudinal edges a first distance apart at an expanded deployed diameter to apposition the framework against a wall defining the vessel. After the stent is endothelialized, degradation of the bioresorbable struts causes the stent to contract to a reduced deployed diameter so that the opposing longitudinal edges are a second distance apart that is less than the first distance.

Abstract: The present invention is directed to an intraluminal guiding device having an expandable guiding member so as to facilitate and overcome the difficulties associated with obtaining contra-lateral leg access of a bifurcated stent or a bifurcated stent graft with a second guidewire and a method for treating abdominal aortic aneurysms with such a device. The guiding device comprises a pre-loaded second wire positioned within the contra-lateral leg which facilitates access to said leg in accordance with the present invention.

Abstract: Mechanisms for pulling a tensile member a predetermined distance from a medical device having an intracorporeal end and an extracorporeal end are disclosed. Such mechanisms may be safely operated using a robot, two hands, or in some embodiments, only one hand. Such mechanisms may include one or more cams, drums, or pulley-like members and a lever, and may be physically coupled to an extracorporeal portion of the medical device.

Abstract: A stent attachment and deployment mechanism is utilized to prevent the distal end of an endoprosthesis comprising fixation barbs or other fixation mechanism from deploying prior to the remaining sections of the fixation device. With this stent attachment and deployment mechanism accurate deployment may be achieved.

Abstract: Various embodiments for a stent delivery device that utilizes a lost motion technique via a living connected to two cantilever arms for slow retraction of an outer sheath and an actuator member coupled to the two arms for fast retraction of the outer sheath during delivery of a self-expanding implantable device such as a stem or stent graft.

Abstract: An endoprosthesis delivery system includes a wire holder on a distal section of an elongated shaft with a plurality of wires extending distally from the wire holder and, in a secured position, terminating in a distal receiver attached to the elongated shaft distal to the wire holder. A single wire attached to the wire holder and extending proximally along the delivery system to a point easily accessible by the operator may be pulled proximally to move the wires out of the distal receiver and release the endoprosthesis.

Abstract: A stent attachment and deployment mechanism is utilized to prevent the distal end of an endoprosthesis comprising fixation barbs or other fixation mechanism from deploying prior to the remaining sections of the fixation device. With this stent attachment and deployment mechanism accurate deployment may be achieved.

Abstract: The present invention is directed to an intraluminal guiding device having an expandable guiding member so as to facilitate and overcome the difficulties associated with obtaining contra-lateral leg access of a bifurcated stent or a bifurcated stent graft with a second guidewire and a method for treating abdominal aortic aneurysms with such a device. The guiding device comprises a pre-loaded second wire positioned within the contra-lateral leg which facilitates access to said leg in accordance with the present invention.

Abstract: A dilator for sheathless access to a vessel of a patient, having a distal portion with a maximal outer diameter that extends from a distal end to a guidewire exit port and a proximal portion with a reduced profile that extends from the guidewire exit port to the proximal end and a lumen that extends between the distal end and the guidewire exit port. A first guidewire may be positioned within the vessel and the dilator advanced over the guidewire. A guide catheter may then be advanced over the dilator.

Abstract: A number of methods may be utilized to correct for the first drop dissimilarity in drop-on-demand inkjet devices. Various collection processes, mass calculations and timing manipulation may be utilized to correct the first drop dissimilarity problem.

Abstract: An endoprosthesis delivery system includes a wire holder on a distal section of an elongated shaft with a plurality of wires extending distally from the wire holder and, in a secured position, terminating in a distal receiver attached to the elongated shaft distal to the wire holder.

Abstract: Various embodiments for an endovascular implantable device (and variations thereof) that virtually eliminates the problem of stent foreshortening phenomena in which the length of a stent or prosthesis shortens as the prosthesis is expanded in the biological vessel.

Abstract: This disclosure is directed to a rewrapping tool (20) for returning a balloon of a dilatation catheter to a wrapped profile following inflation. The tool includes a body (22) extending along a longitudinal axis L-L defining a first lumen (24) and a channel (28) communicating along the length of the first lumen. The channel is to be slid over a catheter shaft of the dilatation catheter at a position proximal to the balloon so that the catheter shaft is coaxial with the first lumen and the catheter shaft may be pulled in a proximal direction so that the balloon is drawn through the first lumen to return the balloon to a wrapped profile.

Abstract: A large lumen guide catheter (10) has an elongate tubular body (22), which has an outer surface (24), an inner surface (44), and a braided wire layer between the inner surface and the outer surface, wherein the wires winding a first helical direction are thicker and wider than the wire winding in a second helical direction opposite the first helical direction.