A multistage balloon catheter that uses a single lumen to inflate a balloon in stages is disclosed. A fluid port provides fluid communication from an inflation lumen in the balloon catheter to the inner volume of a distal balloon. The distal balloon expands as fluid in delivered to the inner volume of the distal balloon. Once inflated, the pressure continues to rise until a threshold pressure is exceeded. A pressure sensitive inflation valve provides fluid communication into an inner volume of a second balloon disposed at least partially proximal to the distal balloon. The pressure sensitive valve allows fluid communication into the second balloon once the threshold pressure is reached in the first balloon thereby inflating the second balloon.

A medical assembly includes a balloon expandable endoprosthesis comprising a plurality of ringed stent elements flexibly connected to each other via at least one flexible connector, the endoprosthesis being deployable from an undeployed state with an undeployed diameter to a deployed state with a deployed diameter. The medical assembly further includes a catheter assembly comprising a balloon, and a cover along the balloon. The endoprosthesis is coaxially located about the balloon and the cover. One or more portions of the balloon and the cover reach an intermediate diameter between the undeployed diameter and the deployed diameter in which the portions of the balloon and the cover are inflated by increasing an inflation pressure within the balloon and approximately maintained at about the intermediate diameter until the inflation pressure increases by at least 1 atmosphere to overcome a yield strength of the cover.

An occlusion catheter system includes a proximal hub having an inflation connection port and an inflation pathway. An inflation catheter member is connected to the proximal hub and has an inflation lumen. A stiffener member defines a longitudinal axis. The proximal end of the stiffener member is connected to the proximal hub. The stiffener member extends through a portion of the inflation lumen. An occlusion balloon has a proximal balloon end and a distal balloon end. A distal catheter member is positioned substantially on the longitudinal axis and is connected to the distal end of the stiffener member. An atraumatic tip is positioned on a distal end of the distal catheter member. The atraumatic tip has a substantially circular profile in a relaxed configuration. A pressure sensor is connected to the occlusion catheter system distally relative to the occlusion balloon and is connected to a processor by electrical wiring.

An occlusion balloon device includes a shaft comprising at least one inflation lumen and an inflatable balloon, the inflatable balloon having a plurality of independently inflatable and deflatable balloon portions and being in communication with the at least one inflation lumen. A method and a system comprising the occlusion balloon device enable assessment and treatment of a perforation in a vessel of a patient.

A device and method for minimizing exposure of soft mucosa tissues to radiation, the device including a low-volume intracavity balloon catheter having multiple expansion portions, including an isometrically expanding portion and a substantially planar anterior portion.

A catheter for removable insertion into a body vasculature has at least one inflatable member. The catheter has at least in part an expandable body that forms an internal axially extending lumen in at least the expanded state of the body. The inflatable member is adjacent a distal axial end of the body and is configured to at least partially obstruct the lumen.

Various embodiments provide a device comprising a balloon disposed at least partially along a template, the template including an aperture, wherein the template has a substantially cylindrical portion that resists deformation in a radial direction, wherein the balloon expands radially during inflation, wherein a portion of the balloon at least partially protrudes about the aperture. Other embodiments are directed toward balloons having textured surfaces.

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.

A method of inflating a catheter balloon may include providing a balloon assembly operable to provide a balloon diameter vs. balloon pressure profile generally depicting a balloon inflation sequence providing at least one intermediate inflated diameter and a final inflated diameter of a balloon such that the balloon attains the at least one intermediate diameter at a predetermined pressure, and attains the final diameter at a final predetermined pressure that is lower than a predetermined pressure of a last intermediate pressure.