Abstract: A method of testing the performance of a collapsible prosthetic heart valve includes wrapping an aortic band around an outer surface of a portion of an aorta, fastening a first end portion of the aortic band to a second end portion of the aortic band, implanting a collapsible prosthetic heart valve in the aorta at an implantation site, and flowing a pressurized fluid through the aorta. The aortic band may be positioned near the sinotubular junction of the aorta. When installed around the aorta, the aortic band reinforces the portion of the aorta so as to be more resistant to radial expansion.

Abstract: A method of testing the performance of a collapsible prosthetic heart valve includes wrapping an aortic band around an outer surface of a portion of an aorta, fastening a first end portion of the aortic band to a second end portion of the aortic band, implanting a collapsible prosthetic heart valve in the aorta at an implantation site, and flowing a pressurized fluid through the aorta. The aortic band may be positioned near the sinotubular junction of the aorta. When installed around the aorta, the aortic band reinforces the portion of the aorta so as to be more resistant to radial expansion.

Abstract: Retainer structures (150) maintain stented valves (800) on the balloon (130) of a balloon catheter during delivery of the valve to an implantation node and subsequent expansion of the valve. The retainer structures define a raised edge relative to the outer surface of the balloon and limit movement of the valve longitudinally relative to the balloon. Deflation of the balloon following expansion of the valve stent releases the valve.

Abstract: A system for arterial access for delivery of treatment devices is provided. In one embodiment, the system comprises a guidewire and a catheter. The catheter comprises a handle and a shaft. The shaft may be a steerable/deflectable tip shaft with a lumen adapted to allow passage of the guidewire at least partially there through. A passive sheath may also be provided to be delivered over the shaft. The handle controls the steerable/deflectable tip shaft and may be used to deflect the distal tip of the shaft.

Abstract: A delivery system for delivering a collapsible prosthetic heart valve includes a valve support structure for supporting a collapsible prosthetic heart valve, and a distal sheath movable in a longitudinal direction relative to the valve support structure between a first position in which the distal sheath is adapted to surround a collapsible prosthetic heart valve supported on the valve support structure, and a second position in which the distal sheath is adapted to expose the collapsible prosthetic heart valve for deployment. The distal sheath is at least partially formed of an inner polymer layer, an outer polymer layer, and a tubular supporting member sandwiched between the inner polymer layer and the outer polymer layer.

Abstract: A catheter assembly having first and second shaft members that provide stearability for the catheter assembly. The first shaft member has a plurality of longitudinally spaced apart first ring members that are interconnected with a longitudinally extended first spine member. The second shaft member is positioned within the first shaft member and is connected to a distal end portion of the first shaft member. The second shaft member has a plurality of longitudinally spaced apart second ring members that are interconnected with a longitudinally extending second spine member. Alternatively, the second shaft member includes a plurality of protrusions extending radially outward from the longitudinally extending second spine member. The second shaft member is operable to move at least portions of the first ring members longitudinally relative to each other to bend the first shaft member.

Abstract: A system for arterial access for delivery of treatment devices is provided. In one embodiment, the system comprises a guidewire and a catheter. The catheter comprises a handle and a shaft. The shaft may be a steerable/deflectable tip shaft with a lumen adapted to allow passage of the guidewire at least partially there through. A passive sheath may also be provided to be delivered over the shaft. The handle controls the steerable/deflectable tip shaft and may be used to deflect the distal tip of the shaft.

Abstract: A body implantable stent is formed of a plurality of strands arranged in two sets of coaxial helices, wound in opposite directions to form multiple crossings. At selected crossings, the adjacent strands are welded to one another, while at the remaining crossings the strands are free for limited movement relative to one another. The welds are formed in patterns that preferably enhance radial strength and rigidity, while having a minimal impact on axial bending flexibility. Preferred weld patterns in this regard include rings or circumferential rows, and helices, particularly with a steeper pitch than that of the strands. Stent fabrication preferably involves resistance welding at the crossings, and use of a tool to reuniformly compress the stent around and against the distal end region of a balloon catheter used later to deliver the stent to a treatment site.

Abstract: The present disclosure relates to a catheter including a segment having a longitudinal axis, and a plurality of circumferential supports surrounding the axis. A plurality of filaments surround the circumferential supports to enhance torque transmission through the catheter segment.

Abstract: The present disclosure relates to a catheter including a segment having a longitudinal axis, and a plurality of circumferential supports surrounding the axis. A plurality of filaments surround the circumferential supports to enhance torque transmission through the catheter segment.

Abstract: The present disclosure relates to a segment of catheter having a longitudinal axis extending between distal and proximal ends of the catheter segment. The segment includes a plurality of circumferential supports surrounding the longitudinal axis. The segment also includes axially members connected to the circumferential supports. The axial members extend in the direction generally along the longitudinal axis. The axial members include three ends that are positioned between the circumferential supports.

Abstract: A catheter has a support segment which includes a plurality of support struts. Each of the struts has first and second ends longitudinally spaced apart along a longitudinal axis of the segment. The struts curve at least partially around the axis from the first ends to the second ends. The support struts include a first set and a second set. The struts of the first set extend around the axis in a clockwise direction. The struts of the second set extend around the axis in a counter-clockwise direction.

Abstract: A body implantable stent is formed of a plurality of strands arranged in two sets of coaxial helices, wound in opposite directions to form multiple crossings. At selected crossings, the adjacent strands are welded to one another, while at the remaining crossings the strands are free for limited movement relative to one another. The welds are formed in patterns that preferably enhance radial strength and rigidity, while having a minimal impact on axial bending flexibility. Preferred weld patterns in this regard include rings or circumferential rows, and helices, particularly with a steeper pitch than that of the strands. Stent fabrication preferably involves resistance welding at the crossings, and use of a tool to reuniformly compress the stent around and against the distal end region of a balloon catheter used later to deliver the stent to a treatment site.

Abstract: A micro-cable interconnect comprises a single exterior flexible insulative coating internally containing a plurality of terminally prepared, precisely spaced conductors. The conductors are arranged with a spacing and pitch to identically match spacing and pitch of interconnect zones operatively connected to an integrated circuit or connector, with the conductors constructed and arranged for bonding to the interconnect zones.