The embodiments described herein relate to a self-positioning, quick-deployment low profile transvenous electrode system for sequentially pacing both the atrium and ventricle of the heart in the “dual chamber” mode, and methods for deploying the same.

A device for introduction into a body vessel includes a shaft (105), a balloon (115) positioned at the distal end of the shaft (105), and at least one longitudinal scoring wire (135) to score a vascular lesion attached to the distal end of the shaft (105), disposed over the balloon (115). The shaft (105) includes a support (119), such as a wire or tube having one or more spirally cut portions (119A, 119B), which improves pushability and trackability, thereby allowing for use with an external guidewire in a “short rapid exchange” (SRX) format. The balloon (115) expands when fluid is delivered to the balloon (115) through the inflation lumen. This expansion pushes the scoring wire and guidewire against the vascular lesion.

The disclosure relates to medical devices comprising coaxial cannulae. A medical device includes an outer cannula and a coaxial inner cannula that is secure to the inner cannula. The circumferential wall of one of the cannulae defines a pattern of openings that extends along a spiral path about the lengthwise axis of the cannula.

A packaging assembly for storing a steerable catheter ready for connection with a robotic system, comprises: a packaging enclosure and an alignment member configured to hold the steerable catheter in a predetermined shape. The alignment member is a carrier tube configured to align one end of the steerable catheter for connection with an actuator unit. The package and the alignment member are designed such that the steerable catheter can be connected to the actuator unit without changing the predetermined shape and while the catheter is still in the package. A robotic system is configured to connect to the steerable catheter included in the packaging assembly. The robotic system completes an initialization process to set acceptor parts of the actuator unit to a position corresponding to the predetermined shape in which the catheter is packaged.

A coil structure used in an endoscope includes a coil tube formed by densely winding a wire rod, both ends of the coil tube being fixed, a first contact surface formed on one surface of the wire rod on a distal end side, and a second contact surface formed on the other surface of the wire rod on a proximal end side, the first contact surface coming into contact with the second contact surface. The first contact surface is formed as a convex curved surface arcuate in cross section, a curvature center of which is located further on an inner side than an outer circumferential portion of the coil tube. For the convex curved surface, a curvature radius larger than a radius of the coil tube and smaller than a curvature radius during maximum bending of an insertion section is set.

A lead delivery catheter having a slittable pull ring is described. The lead delivery catheter includes a deflection wire attached to the slittable pull ring to deflect the catheter. The slittable pull ring has several ring holes arranged in a pattern. The pull ring is located distal to a tubular braid of the lead delivery catheter, and a size and pattern of the ring holes can be similar to a size and pattern of holes in the tubular braid. The structural similarity between the pull ring and the tubular braid facilitates use of a consistent cutting force to slit through the tubular braid and the pull ring of the lead delivery catheter. Other embodiments are also described and claimed.

Disclosed are steerable cannulas and hinged or steerable needles including access sets and methods thereof. A steerable cannula can include a compound tube, a cannula tip, a compound hub, and an articulation mechanism. A distal-end portion of the compound tube can include a flexible hinge for adjusting a cannula angle between proximal and distal portions of the compound tube adjacent the flexible hinge. A cannula tip coupled to a distal end of the compound tube can include a tip opening fluidly connected to a lumen of the compound tube. The compound hub is disposed about a proximal-end portion of the compound tube. The articulation mechanism is controlled by at least a rotatable element of the compound hub for adjusting the cannula angle. The articulation mechanism is configured to longitudinally move an inner tube of the compound tube relative to an outer tube to adjust the cannula angle.

An intravascular device, such as s guidewire device, includes a hollow proximal section and a hollow distal section joined to the proximal section and extending distally from the proximal section to form a continuous lumen extending from a proximal end of the device to a distal end of the device. An inner member extends from the proximal end to the distal end and is joined to the distal end. The inner member is translatable within the lumen in response to applied tension. At least the distal section includes a micro-fabricated cutting pattern that enables deflection of the distal end in response to the application of tension to the inner member.

A device for repair of a heart valve leaflet includes an elongated catheter assembly having a proximal end and a distal end, and a tip at the distal end of the catheter assembly. A capture mechanism having a first free end and a second free end is rotatably coupled to a distal end of the tip. A plication mechanism has an open configuration and a closed configuration, and extends between the first free end and the second free end of the capture mechanism when in the open configuration. The device may also include a clip housing at a proximal end of the tip configured to hold a clip therein.

An intravascular device delivery system has an elongated member with a flexible hypotube. The hypotube can be rotationally keyed to a steerable catheter. The flexible hypotube includes one or more cuts to allow bending of the flexible hypotube within a first plane. The steerable catheter is steerable to bend the flexible hypotube within the first plane, and longitudinally movable relative to the flexible hypotube to allow distal movement of the steerable catheter relative to a distal end of the flexible hypotube.