In some examples, a catheter includes one or more balloons positioned between an inner wall and an outer wall of an elongated body of the catheter. The one or more balloons are configured to expand through one or more inner wall openings defined by the inner wall and into an inner lumen of the catheter, as well as through one or more outer wall openings defined by the outer wall, e.g., to extend radially away from an outer surface of the outer wall of the catheter. In some examples, the one or more balloons are configured to expand radially inward through the one or more inner wall openings and into the inner lumen of the catheter to contact (e.g., directly contact) a guidewire positioned within the inner lumen.

A nasogastric device and method is provided, including a first flexible tube configured to be threaded through the nose of a patient, down the esophagus and into the stomach for enteral feeding, a second flexible tube disposed adjacent to the first tube having a distal end, the distal end of said second tube configured to terminate inside the esophagus for delivery of liquids to the esophagus or for sampling of the local environment, an inflatable balloon configured around said first and second flexible tubes, a third flexible tube configured to inflate said inflatable balloon; and a fourth flexible tube communicating with an exterior portion of said inflatable balloon, the fourth tube configured to transport suspensions or solutions of materials; and an elastomeric sleeve which is used to control delivery of therapeutic suspensions of solutions of materials to the exterior of the device to the adjacent esophageal tissue.

A catheter system (100) for treating a treatment site (106) within or adjacent to a vessel wall (108A) or a heart valve. In various embodiments, the catheter system (100) includes a balloon (104) and an inflation tube (219, 319). The balloon (104) has a balloon interior (146). The inflation tube (219, 319) is configured to guide a flow of an inflation fluid (132) into the balloon interior (146). The inflation tube (219, 319) has an inflation lumen (319A). The inflation tube (219, 319) is movable between (i) an first configuration (319F) wherein the inflation lumen (319A) has a first cross-sectional area, and (ii) a second configuration (319S) wherein the inflation lumen (319A) has a second cross-sectional area that is less than the first cross-sectional area. In various alternative embodiments, the inflation tube (219, 319) can be biased toward the second configuration (319S) or the first configuration (319F). The inflation tube (219, 319) can include a tube wall (319W) that varies in thickness

A surgical system and method are used to position a guidewire within an anatomical passageway includes the guidewire, a dilator, a reference feature, and a marker. The guidewire has a guidewire body extending to a distal body end portion. The dilator is secured on the distal body end portion and configured to expand from a contracted state to an expanded state. The dilator in the contracted state is configured to pass through an isthmus of a Eustachian tube. The dilator in the expanded state is configured to dilate the Eustachian tube. The reference feature secured relative to the guidewire, and the marker is positioned on the guidewire a predetermined distance from the reference feature. Thereby, the marker is configured to indicate the predetermined distance to an operator for determining a depth of the reference feature in the anatomical passageway.

An occlusion catheter system includes an inflation catheter member and an occlusion balloon. The proximal and distal balloon ends are connected to the inflation catheter between the proximal and distal catheter ends. A distal pressure sensor is attached to the inflation catheter member between the proximal balloon end and the atraumatic tip. An inflatable spine is connected to the inflation catheter. The proximal spine end is connected to the inflation catheter near the proximal balloon end and the distal spine end is connected to the inflation catheter near the distal balloon end. The occlusion balloon and the inflatable spine are configured to define blood flow channels with the internal surface and the external balloon surface when the occlusion catheter system is at least partially positioned in the vessel and the occlusion balloon and the inflatable spine are in a partially inflated configuration.

Catheters that includes inner and outer elongate shafts, each of which is secured relative to an end of an inflatable member. Balloon bonding locations may be disposed radially inward relative to an outer dimension of the outer elongate shaft.

Catheter having an elongate tubular shaft including an inflation lumen and a guidewire lumen defined therein, the guidewire lumen extending along at least a distal length of an inner tubular member of the elongate tubular shaft. The catheter includes a distal tip member having a proximal end and a distal end, wherein the distal tip member is monolithic and the proximal end of the distal tip member is secured to a distal end of the inner tubular member. The catheter includes a balloon having a proximal portion and a distal portion, the proximal portion of the balloon sealingly coupled to the distal portion of the elongate tubular shaft. The distal portion of the balloon is sealingly coupled to the distal tip member and the balloon defines an inner chamber in communication with the inflation lumen, wherein the proximal end of the distal tip member is disposed within the inner chamber.

A percutaneous transluminal angioplasty (PTA) catheter may be configured to perform vein expansion and occlusion. A infusion port located proximal to the occlusion feature can be used to inject contrast enhancement agent as well as other substances. The catheter can be used especially advantageously in vascular regions associated with hemodialysis access.

The invention is directed to a device for the sealing occlusion and/or for the space-filling tamponade of hollow organs or other cavities in the human body, comprising a preferably fully and residually formed balloon (2) which applies a sealing pressure that is as constant as possible to the wall of the organ to be occluded or tamponaded. The device comprises an isobarically acting regulator (3) for the filling pressure within the interior of the balloon, the regulator having a volume reservoir (3) situated extracorporeally outside of the body, and a feed line (6) for communicatively connecting the extracorporeal volume reservoir of the regulator to the interior of the balloon. The connecting feed line between the balloon and the regulator has a flow-directing one-way valve (26) that prevents backflow from the balloon to the volume reservoir of the regulator, while a nonflow-directing throttle element (27) is provided which allows a slow volume compensation between the balloon and the volume reservoir.

An apparatus includes a shaft, an expandable dilation member, and a bulbous tip. The shaft has a first outer cross-sectional dimension. The dilation member is positioned proximal to the distal end of the shaft. The dilation member is operable to transition between a non-expanded configuration and an expanded configuration. The dilation member is sized to pass through a passageway associated with drainage of a paranasal sinus or a Eustachian tube when the dilation member is in the non-expanded configuration. The bulbous tip is positioned at the distal end of the shaft. The bulbous tip is distal to the dilation member. The bulbous tip has a second outer cross-sectional dimension. The second outer cross-sectional dimension is larger than the first outer cross-sectional dimension. The bulbous tip is removably secured to the distal end of the shaft.