Devices and methods for providing an internal balloon sheath are disclosed. One device includes a sheath for insertion through an arteriotomy of a patient. The sheath comprises a tubular sheath body having a longitudinal axis, an open proximal end, an open distal end, an outer surface and an inner surface, the inner surface defining a lumen between the proximal and distal ends for passage of a catheter device. The sheath also comprises an inflatable balloon disposed within the lumen. The inflatable balloon is configured to occupy a longitudinal space in the lumen between the inner surface of the sheath body and the catheter device when the catheter device is disposed within the sheath and the balloon is inflated, and fluidically seal the lumen.

A balloon guide catheter including a catheter shaft having a reflowable material outer layer. Secured without an adhesive to the catheter shaft is a balloon having a bond interface area with a plurality of punctures defined therein secured about the outer layer of the catheter shaft via seepage of the reflowable material of the outer layer into the plurality of punctures forming a radially outward reflow bond between the catheter shaft and the balloon. Along the bond interface area about the perimeter of the opening in the balloon, a single reflow jacket is secured to the balloon via seepage of the reflowable material of the single reflow jacket into the plural punctures of the balloon forming a radially inward reflow bond. The single reflow jacket is made of a reflowable material and has an opening defined therein aligned with the balloon.

A balloon guide catheter with a catheter shaft having an outer layer made of a reflowable material and a balloon having a bond interface area with a plurality of punctures defined therein secured about the outer layer of the catheter shaft via seepage of the reflowable material of the outer layer into the plurality of punctures forming a radially outward reflow bond between the catheter shaft and the balloon without the use of an adhesive. One or more reflow jackets made of a reflowable material may also be disposed about the bond interface area of the balloon seeping into the plural punctures forming a radially inward reflow bond.

Balloon guide catheter with a balloon bonded thereto maximizing bonding strength and integrity while minimizing outer profile. Reflow jacket(s) is melted to/embedded within a braid supporting structure of the catheter securing beneath the balloon. Radially arranged apertures and/or recesses may be defined in the balloon through which adhesive is seepable upwards when secured about the catheter shaft. Proximal and distal bond interface areas of the balloon may be skived at right angles into two sections each extending radially 180°. Proximal and/or distal edges of the balloon may be flipped inwards prior to securing to the catheter shaft to form respective proximal and/or inverted bonds. During prepping of the catheter, residual air may be purged from the balloon via an exhaust hole defined in the compliant balloon or an exhaust tube secured between the exterior surface of the catheter shaft and the balloon.

A balloon guide catheter including a balloon and a catheter shaft having a central lumen defined axially therethrough, and an inflation lumen. An exterior surface of the catheter shaft has a distal reduced outer diameter recess area defined therein and a proximal reduced outer diameter recess area separated in an axial direction from the distal reduced outer diameter recess area with a discharge port of the inflation lumen disposed therebetween. The balloon is secured to the catheter shaft by adhesive pooled in the distal reduced outer diameter recess area forming a distal bonding interface area; and the proximal reduced outer diameter recess area forming a proximal bonding interface area. Heat shrink tubing is positioned about the balloon at the distal and proximal bonding interface areas.

A medical elongated body or a balloon catheter that include a catheter main body, a tubular body, and a distal member at a distal end of the tubular body. The distal member is more flexible than the tubular body. The distal end of the tubular body is joined to the distal member at a joint portion. The tubular body includes an outer layer and an inner layer disposed inside of the outer layer in the radial direction of the tubular body. The material of the inner layer possesses better fusing properties with respect to the distal member than the fusing properties of the outer layer material with respect to the distal member material. The inner layer is interposed between the distal member and the outer layer by extending between the distal member and the outer layer at the joint portion.

An endoscopy system including a balloon-equipped endoscope including a balloon which is configured for slidable frictional engagement with an interior wall of a body passageway and axial stretching of the interior wall when inflated to a slidable frictional engagement pressure and displaced axially along the body passageway and a balloon inflation subsystem operative to selectably inflate the balloon to the slidable frictional engagement pressure.

Systems, apparatus and methods are disclosed for medical treatment comprising bone access and dilatation and/or cavity creation or enlargement using a narrow gauge, preferably 11-gauge or smaller, cannula wherein a catheter/expandable element assembly meeting medical protocols is designed, adapted and fabricated to fit through the interior of the associated 11-gauge or smaller cannula.

A balloon catheter has a balloon and an outer shaft fixed to a proximal end of the balloon. Each of the proximal end of the balloon and a distal end of the outer shaft has an inner projection extending in an axial direction of the balloon catheter, an outer projection extending in the axial direction, and a gap formed between the inner projection and the outer projection. At a fixing part, the inner projection of the balloon or the outer projection of the balloon is disposed in the gap of the outer shaft, and the inner projection of the outer shaft or the outer projection of the outer shaft is disposed in the gap of the balloon. The balloon catheter has improved fixing strength between the balloon and the outer shaft without increasing an outer diameter of the fixing part between the balloon and the outer shaft.

In various embodiments, a device is provided comprising a balloon configured to expand to an expanded state in response to introduction of a fluid at a first pressure, wherein the fluid perfuses through the balloon above a second pressure, the second pressure being the same or greater than the first pressure. In various embodiments, a method comprising fabricating a balloon configured to expand to an expanded state in response to introduction of a fluid at a first pressure, wherein the fluid perfuses through the balloon above a second pressure, the second pressure being at or greater than the first pressure, disposing the balloon on an elongate member having a lumen, placing the lumen in fluid communication with an interior volume of the balloon.