A medical device, including an elongate catheter body defining a proximal segment, a distal segment, and a first lumen therethrough; a tube attached to the distal segment of the catheter body, the tube defining a proximal end, a distal end, and a second lumen therethrough; wherein the proximal end of the tube is attached to the catheter body at a first joint; wherein the distal end of the tube is attached to the catheter body at a second joint; and wherein a portion of the tube extending between the first and second joints is movable with respect to the catheter body.

Medical delivery system for accessing a tricuspid valve via an inferior vena cava, including an outer guide catheter, an inner guide catheter and an interventional catheter. The first deflection portion of the outer guide catheter is steerable to define a first outer-guide-catheter curve and the second deflection portion of the outer guide catheter is steerable to define a second outer-guide-catheter curve and the first deflection portion of the inner guide catheter is steerable to define a first inner-guide-catheter curve.

The present invention relates to a double steerable sheath, a delivery system comprising such a sheath and a method for deployment of a medical device, e.g. a replacement heart valve prosthesis, in a patient's heart.

System for fixation of leaflets of a heart valve including a delivery catheter having an elongated shaft, a proximal end portion and a distal end portion configured to be positioned proximate native leaflets of a heart valve from a remote vascular access point, the delivery catheter further includes a rotatable actuator rod having a threaded fastener at a distal end thereof, and a fixation device releasably coupled by a threaded connection to the threaded fastener of the actuator rod. The fixation device includes a first arm moveable between a closed position and an open position, a second arm moveable between a closed position and an open position. The fixation device further includes a first gripping element movable relative to the first arm in the open position, the first gripping element biased toward the first arm to capture a first leaflet of the heart valve therebetween, and a second gripping element movable relative to the second arm in the open position, the second gripping element biased toward the second arm to capture a second leaflet of the heart valve therebetween. The first gripping element and the second gripping element each includes a plurality of barbs extending therefrom, the plurality of barbs of each of the first gripping element and the second gripping element being aligned transversely in at least one row. The fixation device further includes a covering disposed on each of the first gripping element and the second gripping element, wherein the plurality of barbs of the first gripping element and the second gripping element, respectively, protrude through the covering.

A device for performing intervention procedures includes an elongated body having a first end and a second end. The elongated body includes a hollow tool channel extending through the elongated body from the first end to the second end. The tool channel is configured to receive an intervention tool and a length-adjusting element disposed at the first end or the second end of the elongated body. The length-adjusting element is configured to enable a length of the elongated body to be adjusted. The elongated body includes an angle-adjusting element disposed along the length of the elongated body. The angle-adjusting element is configured to enable the elongated body to be bent . The device includes an imaging system disposed at the first end or the second end of the elongated body. The imaging system includes an imaging device and an illumination device.

Deflectable catheters, systems, and methods of using deflectable catheters are described herein. An embodiment of a deflectable catheter comprises an elongate member, a handle, and a wire member. The elongate member has a shaft and a flexible member. The shaft defines a first lumen and a second lumen and the flexible member defines a passageway. The flexible member is attached to the shaft such that the passageway defined by the flexible member is in communication with each of the first lumen and second lumen defined by the shaft.

Articulation devices, systems, methods for articulation, and methods for fabricating articulation structures will often include simple balloon arrays, with inflation of the balloons interacting with elongate skeletal support structures so as to locally alter articulation of the skeleton. The skeleton may comprise a simple helical coil or interlocking helical channels, and the array can be used to locally deflect or elongate an axis of the coil under control of a processor. Liquid inflation fluid may be directed so as to pressurize the balloons from an inflation fluid canister, and may vaporize within a plenum or the channels or balloons of the articulation system, with the inflation system preferably including valves controlled by the processor. The articulation structures can be employed in minimally invasive medical catheter systems, and also for industrial robotics, for supporting imaging systems, for entertainment and consumer products, and the like.

Medical systems are disclosed which may include an elongate shaft member and a plurality of steering lines operable to cause bending of the elongate shaft member via movement of at least one of the steering lines. A respective second end portion of a first proximal steering line may terminate at a first proximal termination portion of the elongate shaft member, and a respective second end portion of the first distal steering line may terminate at a first distal termination portion of the elongate shaft member. The elongate shaft member may be formed of materials of different hardness to provide preferential bending in desired directions.

A magnetically controllable linkage based medical device for interventional medical procedures includes a magnetic tip subassembly including magnet elements thereon; a plurality of linkage body elements connected in sequence, a distal linkage body element coupled to the magnetic tip subassembly, wherein each linkage body element is configured for deflection in at least one deflection direction; a linkage base element coupled to a proximal linkage body element; a support body connected to the linkage base element; at least one pair of control wires passing to the magnetic tip subassembly; wherein the device is configured such that an externally-generated magnetic field deflects the magnetically-controlled linkage-based device in at least one deflection direction, and wherein selectively tensioning the control wires can hold the magnetically-controlled linkage-based device in a desired orientation. The device is configured such that the externally-generated magnetic field which deflects the magnetically-controlled linkage-based device is less than 40 millitesla.

A catheter for use in a patient's heart, especially for mapping a tubular region of the heart, has a catheter body, a deflectable intermediate section and a distal mapping assembly that has a generally circular portion adapted to sit on or in a tubular region of the heart. A control handle of the catheter allows for single-handed manipulation of various control mechanisms that can deflect the intermediate section and contract the mapping assembly by means of a deflection control assembly and a rotational control assembly. The deflection control assembly has a deflection arm and a rocker member. The rotational control assembly has an outer rotational member, an inner rotational member and a cam. A pair of puller members are responsive to the deflection control assembly to bi-directionally deflect the intermediate section. A third puller member is responsive to the rotational control assembly to contract the generally circular portion of the mapping assembly.