An apparatus for providing at least one treatment to at least one tissue having a first structural arrangement configured to expand a first portion at a distal end of the apparatus, a second structural arrangement configured to expand a second portion at the distal end and at least one lumen associated with at least one of the first structural arrangement and/or the second structural arrangement. The first structural arrangement and/or the second structural arrangement can be configured to position the at least one lumen at a particular position with respect to the tissue. A tip is configured to aid in the insertion of the apparatus into the tissue(s).

A system for treating a bifurcation includes first and second delivery catheters. The first catheter has a first shaft, a first expandable member adjacent the distal end of the first shaft, an auxiliary expandable member disposed under the first expandable member, and a first radially expandable stent disposed over both the first expandable member and the auxiliary expandable member. The second delivery catheter has a second shaft, and a second expandable member adjacent the distal end of the second shaft. A portion of the second catheter is disposed under a portion of the first stent, and a portion of the second delivery catheter passes through a side hole in the first stent. The first stent is crimped over the first and second catheters such that the first stent remains attached to the first and the second catheters during advancement of the catheters through a blood vessel.

The present disclosure includes devices, apparatuses, kits, and methods for replacing a nucleus pulposus of an intervertebral disc with an implantable nuclear prosthesis filled with a curable silicone material in situ. Configurations of the present spinal implant devices include a flexible body defining an outer fillable enclosure that defines an outer chamber, an inner fillable enclosure that defines an inner chamber, and a proximal plug configured to be coupled to the inner fillable enclosure.

A device having a biocompatible polymer as a body and regularly spaced radiation seeds and regularly spaced magnetic materials disposed of within the body of the biocompatible polymer, or uniformly distributed liquid radiation and magnetic fluid materials within a polymer slab, hollow thick wall polymer shell, or thin wall polymer balloon, as suitable for surgical placement within a resection cavity for treatment of at-risk tissue in the tumor margin with local hyperthermia in combination with radiation and potentially also with chemotherapy and/or immunotherapy that is slowly released from the biocompatible polymer.

A delivery catheter (1), an implant delivery system and methods of operation. A balloon structure in the delivery catheter (1) includes an expandable component and a balloon body (140). The expandable component is disposed within the balloon body (140) so as to be expandable therein. Moreover, the expandable component is sleeved over a distal end of a guidewire tube (210). An implant is disposed over the balloon body (140) and axially restrained over a middle portion of the expandable component during delivery. The expandable component is configured to provide a radially outward support force from a middle portion of the balloon body (140) during expansion so as to bring internal environments of the balloon body (140) respectively at distal and proximal end thereof into communication. This facilitates stable and uniform and hence symmetric expansion of the implant. Moreover, it is helpful in addressing the risk of sudden axial movement of the implant with respect to a delivery system during delivery and release.

Method of forming a multiple balloon catheter includes extruding a tube and a plurality of ribs through a die to form a monolithic element that spans between first and second ends with the plurality of ribs extending along the length of the tube to define a corresponding number of a plurality of channels that extend along the length of the tube. Positioning a portion of the tube into a mold and constricting a proximal end portion and a distal end portion of the tube that is positioned in the mold. Inflating the tube to produce an inner balloon having a body portion that spans between proximal and distal end portions and cutting the inner balloon to separate the inner balloon from a remainder of the tube. Disposing an outer balloon including a plurality of holes around the inner balloon and aligning the plurality of holes with the plurality of channels.

Systems and methods for continuous infusion of a fluid, which may be heated, into a balloon catheter. A system for balloon inflation, the system comprising a catheter having an inflow lumen and an outflow lumen, a balloon positioned at a distal end of the catheter, the balloon being in fluid communication with the inflow and the outflow lumen, and an infusion device in fluid communication with the balloon through the inflow and outflow lumens, the infusion device configured for continuously circulating a fluid into and out of the balloon to maintain the balloon at a constant pressure and volume by matching a flow of the fluid into the balloon via the inflow lumen with a flow of the fluid out of the balloon via the outflow lumen in order to keep the balloon volume and pressure constant during an entire infusion.

The invention provides medical device for insertion into a body cavity such as the urinary bladder, and for the release of substances into the cavity. The device includes a core and an expandable balloon surrounding the core. The balloon wall is made from an elastic permeable material. When the balloon is empty, the balloon wall is stretched and applied to a surface of the core. A valve allows introductions of one or more fluids between the wall of the balloon and the surface of the core. The invention also provides a system including the device of the invention and one or more instruments for inserting the device into the body cavity or retrieving the device from the body cavity.

A metal balloon catheter having a main tubular body, a metal balloon proximate a distal end of the main tubular body, a central annulus extending along an entire longitudinal aspect of the catheter for accommodating a guidewire therethrough and an inflation annulus adjacent the central annulus which extends along the longitudinal axis of the main tubular body and terminates in fluid flow communication with an inflation chamber of the metal balloon. The metal balloon catheter may be either unitary integral metal catheter in which the main tubular body and the balloon are fabricated of metal, or it may consist of a polymeric main tubular body and a metal balloon.

A visualization catheter includes an elongate shaft, a cap portion, and an offset balloon coupled to the distal end of the shaft. The elongate shaft includes a proximal end, a distal end, and a central axis defined therebetween. The cap portion is coupled to the distal end of the shaft. The cap portion also includes a visualization element and defines an aperture. The offset balloon is coupled to the distal end of the shaft and encapsulates the cap portion. The offset balloon defines a center point offset relative to the central axis of the shaft.