Sphincter reinforcement devices are described. Sphincter reinforcement devices may be configured to be placed at least partially around a bodily passage at or near a sphincter. In one embodiment, a sphincter reinforcement device may comprise a ring including a tubular structure. The ring may be expandable. The tubular structure may be hollow. The tubular structure may have a first end and a second end. The first end may be configured to be coupled to the second end. The tubular structure may include a braided material.

The current invention concerns a catheterization system For performing an Interventional ablation procedure comprising: a flexible guiding catheter comprising a distal end for Insertion and a proximal end for manipulation, the distal end of the guiding catheter transformable from a substantially elongated shape for passage within the vasculature into a contact shape for contacting internal tissue along a continuous band, the flexible guiding catheter comprising a guiding lumen, and a flexible ablation catheter comprising an ablation tip near a distal end, the ablation catheter insertable or inserted into the guiding lumen of the guiding catheter, characterized In that the guiding catheter comprises a continuous slit at or near the distal end of the guiding catheter, said silt arranged such that, when the distal end of the guiding catheter is in said contact shape and contacts internal tissue along a continuous band, the silt defines a functional opening between the guiding lumen and the internal tissue along said continuous band, through which slit said ablation tip is capable of ablating said internal tissue along said continuous band. The Invention further concerns a guiding catheter and an interventional ablation procedure.

An insertion device for delivering media inside a patient includes an outer guide tube having a side port. An inner guide tube is nested within the outer guide tube and movable axially within the outer guide tube. The inner guide tube includes a deflector at an end within the outer guide tube. The device also includes a catheter nested within the inner guide tube and movable axially within the inner guide tube. The deflector of the inner guide tube is positionable such that it deflects the dispensing end of the catheter outward through the opening in the outer guide tube when the catheter is advanced axially within the inner guide tube. A therapeutic delivery cannula may be nested within the catheter, such that the deflected end of the catheter determines the direction of travel of the therapeutic delivery cannula into patient tissue when the cannula emerges from the catheter.

The current document is directed to usable-length-selectable catheters that employ usable-length-selectable catheters to treat malformations, constrictions, obstructions, lesions, and blockages within patients' blood vessels. The usable length of the shaft of a usable-length-selectable catheter, to which the current application is directed, can be adjusted over a set of lengths prior to and during medical procedures.

A single lumen, multiple entry dilator sheath assembly is provided for delivering medical devices in different parts of cardiovascular system. The multiple holes allow multiple guidewires to enter the dilator-delivery sheath system distally and exit from a single lumen proximally thereby providing extra support to the delivery system while tracking over complex paths. Such a multi guide wire system has a definite advantage even over a two-wire system because, although two wire system may offer better support as compared to single wire, it will not be as good as a four wire system. Also, in two wire system the wires are fixed in their position and therefore overcoming the memory of sheath and dilator system will not be as good as with multi-wire system because of the ability to use the multiple entry holes in various permutations and combinations

A delivery member is provided for delivering and deploying an intravascular medical device. The delivery member includes a flexible distal portion including a wound wire coil surrounded by a flexible sleeve and inhibited from extending lengthwise by a stretch resistant member positioned through the lumen of the coil. The delivery member can include hypotubes positioned on either side (distally and proximally) from the wound wire coil to which the stretch resistant member and the wound wire coil can be attached. The flexible sleeve can be fused to the stretch resistant member between windings of the wire coil.

A guide device for inserting a surgical instrument inside a body cavity comprises a guide body, a stabilisation opening and a stabilizing element which can be slidingly engaged inside of the guide body to come out from the latter through the stabilisation opening. In particular, the guide body comprises a deformable portion suitable to pass from a concave configuration, bending towards the inside to house at least partially therein the stabilizing element, to a convex configuration, bending towards the outside of the guide body restoring the cross-section of the inner lumen, and vice versa. The guide body is therefore able to shrink in diameter during the passage inside an introducer catheter and to reacquire the nominal diameter at the operative level.

Embodiments of the present disclosure provide for catheters for use in electrical neuromodulation. The catheter of the present disclosure includes an elongate body having a first end and a second end. The elongate body includes a longitudinal center axis that extends between the first end and the second end. The elongate body further includes three or more surfaces that define a convex polygonal cross-sectional shape taken perpendicularly to the longitudinal center axis. The catheter further includes one or more electrodes on one surface of the three or more surfaces of the elongate body, where conductive elements extend through the elongate body. The conductive elements can conduct electrical current to combinations of the one or more electrodes.

An insertion device for delivering media inside a patient includes an outer guide tube having a side port. An inner guide tube is nested within the outer guide tube and movable axially within the outer guide tube. The inner guide tube includes a deflector at an end within the outer guide tube. The device also includes a catheter nested within the inner guide tube and movable axially within the inner guide tube. The deflector of the inner guide tube is positionable such that it deflects the dispensing end of the catheter outward through the opening in the outer guide tube when the catheter is advanced axially within the inner guide tube. A therapeutic delivery cannula may be nested within the catheter, such that the deflected end of the catheter determines the direction of travel of the therapeutic delivery cannula into patient tissue when the cannula emerges from the catheter.

A delivery member is provided for delivering and deploying an intravascular medical device. The delivery member includes a flexible distal portion including a wound wire coil surrounded by a flexible sleeve and inhibited from extending lengthwise by a stretch resistant member positioned through the lumen of the coil. The delivery member can include hypotubes positioned on either side (distally and proximally) from the wound wire coil to which the stretch resistant member and the wound wire coil can be attached.