Example medical devices are disclosed. An example medical device includes an outer shaft and an inner shaft extending within the outer shaft. The medical device also includes a balloon including a distal waist coupled to a distal end of the inner shaft, a proximal waist coupled to a distal end of the outer shaft, an inner surface and a wall. The medical device also includes a first interior partition panel disposed within the balloon, wherein the first interior partition panel is coupled to both the outer surface of the inner shaft and an inner surface of the balloon and a second interior partition panel disposed within the balloon, wherein the second interior partition panel is coupled to both the outer surface of the inner shaft and an inner surface of the balloon. Further, the first interior partition panel is circumferentially spaced away from the second interior partition panel.

Embodiments hereof relate to methods of delivering a valve prosthesis to an annulus of a native valve of a heart, the native valve having chordae tendineae. A chordae management catheter is positioned within a ventricle of the heart, the chordae management catheter having a displacement component at a distal end thereof. The displacement component has an annular shape and defines a central lumen therethrough. The displacement component is radially expanded to push chordae tendineae within the ventricle radially outward. A valve delivery system is introduced into the ventricle of the heart via a ventricular wall of the heart. The valve delivery system has the valve prosthesis at a distal portion thereof. The valve delivery system is advanced through the central lumen of the radially expanded displacement component towards the annulus of the native valve of the heart. The valve prosthesis is deployed into apposition with the annulus of the native valve.

Embodiments can provide an expandable nasogastric intubation assembly, comprising a tube subassembly and an expander subassembly, comprising an inflatable balloon comprising a proximal expander component section and a distal expander component section wherein the proximal expander component section is located between the proximal end of the intubation assembly and the distal expander component section; wherein the distal expander component section is located between the distal end of the intubation assembly and the proximal expander component section; wherein the inflatable balloon is coupled to the tube subassembly, the proximal expander component section is configured to be inflated from an injection of fluid into at least one first opening located in the second passageway, and the distal expander component section is configured to be inflated by the injection of fluid into at least one second opening located in the second passageway.

A dilatation device 10 includes a support 14 and at least one inflatable tube 16. The inflatable tube is wound helically around the support and also defines a series of inflatable zones 26 along its length, with successive inflatable zones spaced by an intermediate zone 28 that is more resistive to radial expansion than the inflatable zones. The inflatable tube further defines a fluid inlet 22, 24 for: introducing fluid to inflate the inflatable zones; and extracting fluid from the inflatable tube to deflate it, with each inflatable zone being in fluid communication with its successive inflatable zones via the intermediate zones. The axial critical buckling load of the inflatable zones is less than the radial critical buckling load of the inflatable zones, to cause the inflatable zones to concertina axially when the inflatable tube is depressurized, thereby causing the intermediate zones to displace towards each other.

A balloon catheter includes a catheter shaft extending between proximal and distal end portions along a shaft axis. The catheter shaft includes an inflation lumen, and at least one inflation port in communication with the inflation lumen. A balloon assembly is coupled with the catheter shaft and in communication with the at least one inflation port. The balloon assembly includes a balloon membrane having a balloon body, a balloon proximal nose and a balloon distal nose coupled with the catheter shaft. An interlaced jacket is coupled with the balloon membrane, the interlaced jacket includes interlaced filaments extending at diverging angles relative to the shaft axis.

A non-occluding drug-coated balloon catheter device for use in a blood vessel transporting blood comprises a catheter shaft including a guidewire lumen, a fluid lumen and a connector port. A balloon is mounted on the catheter shaft and includes an outer envelope surrounding the guidewire lumen in fluid communication with the fluid lumen; a drug coating applied on the exterior surface of the outer envelope; and at least one bypass lumen forming a passage extending from the proximal end of the outer envelope to the distal end of the outer envelope. When the balloon is positioned in a blood vessel and inflated, the exterior surface of the outer envelope presses the drug coating against the blood vessel and the bypass lumen is open between the distal end of the outer envelope and the proximal end of the outer envelope such that blood transport continues through the bypass lumen.

Various embodiments disclosed relate to drug-coated balloon catheters for treating strictures in body lumens and methods of using the same. A drug-coated balloon catheter for delivering a therapeutic agent to a target site of a body lumen stricture includes an elongated balloon having a main diameter. The balloon catheter includes a coating layer overlying an exterior surface of the balloon. The coating layer includes one or more water-soluble additives and an initial drug load of a therapeutic agent.

A method of treating a patient's joint having opposing joint surfaces includes providing an elongate member having a proximal end, a distal end and an expandable member near the distal end. The expandable member is positioned in the joint between the joint surfaces and expanded so as to separate the joint surfaces away from one another into a distracted position. The joint is manipulated while in the distracted position so that the joint is distracted and in flexion. A diagnostic or therapeutic procedure is then performed on the joint while maintaining the joint in the flexed and distracted position.

Devices, systems and methods for controlling a patient's body temperature by endovascular heat exchange.

A steerable, conformable, drug eluting balloon catheter device may include a catheter stem with one or more balloon element(s), themselves comprised of one or more segment(s) arranged radially or axially along the length of the present catheter device may allow precise deployment of vascular interventional devices, including coring devices and/or placement of stents, and may also allow targeted, specific placement of selected diagnostic or therapeutic materials on the walls of a vascular structure during a cardiovascular intervention procedure.