The invention relates to a balloon catheter comprising a shaft (2) extending in the longitudinal direction, which has at least a first and a second section (7, 8), with the first section (7) being arranged distal to the second section (8) and being more flexible than the second section (8), with the shaft (2) being provided with a first and a second hose-like tube (10, 11) and a balloon (3) being arranged at the distal end of the first tube (10), said balloon (3) being expandable by pressurization with a fluid led through said first tube (10), and said second tube (11) serving for accommodating a guidewire and terminating distally of said balloon (3) and being provided with an opening at said distal end, wherein both said first and second tubes (10, 11) extend along said first and second sections (7, 8), and both said first and second tubes (10, 11) are more flexible in said first section (7) than in said second section (8), wherein a transition section (9) is arranged between said first and second sections (7, 8), in which the first tube (10) has the same material properties as in the first section (7) and the second tube (11) has the same material properties as in the second section (8) or the first tube (10) has the same material properties as in the second section (8) and the second tube (11) has the same material properties as in the first section (7).

A balloon guide catheter system including a balloon guide catheter having a catheter shaft that includes: (i) a main lumen; (ii) an inflation lumen; and (iii) an exhaust lumen. The terminating distal end of the inflation lumen and the terminating distal end of the exhaust lumen being in localized fluid communication with one another underneath the balloon while in a non-inflated state. A balloon is disposed about a distal region of an outer surface of the catheter shaft. The exhaust lumen is configured to purge the residual air in a proximal direction and out from a proximal region of the balloon guide catheter.

A delivery apparatus includes a steerable guide sheath. The steerable guide sheath has a steerable portion, a pull ring located in the distal portion, and a pull wire coupled at one end to the pull ring and coupled at the opposite end to a control handle. The pull wire extends longitudinally through a pull-wire conduit. The steerable guide sheath further includes a compression-resistance portion made of metal and located in the distal portion.

Catheter tubing comprises: an elongate body comprising a base thermoplastic polyurethane; and a compounded thermoplastic polyurethane co-extruded with the base thermoplastic polyurethane to provide a section of catheter tubing discrete from the elongate body, the compounded thermoplastic polyurethane comprising a thermoplastic polyurethane and a radiopaque material, wherein the catheter tubing comprises a first elastic modulus under first conditions prior to entry into a patient; and wherein when exposed to second conditions comprising two or more in vivo stimuli for a duration of time the catheter tubing comprises a second elastic modulus that is not more than fifty percent of the first modulus.

A treatment method involves introducing a catheter into a blood vessel in an arm of the patient and is advanced to position the distal end of the catheter in a blood vessel in a lower limb on one side of the patient's body. A treatment device is inserted into the catheter and advanced to a treatment target in the lower limb on the one side of the patient's body. The catheter is then moved to shift the distal end of the catheter from the blood vessel in the lower limb on the one side of the patient's body to a blood vessel in the lower limb on the other side of the patient's body. A treatment instrument can then be introduced into the catheter and advanced to carry out treatment on a treatment target in the lower limb on the other side of the patient's body.

A catheter assembly includes a catheter body extending from a catheter proximal portion to a catheter distal portion. The catheter body includes an inner liner and an outer sleeve. A braid assembly is within the catheter body and between the inner liner and the outer sleeve. The braid assembly includes a first filar array including one or more first filars helically extending around the catheter body in a first direction. The braid assembly further includes a second filar array including one or more second filars helically extending around the catheter body in a second direction opposed to the first direction.

In some examples, a catheter includes an elongated body comprising proximal and distal portions. The distal portion of the elongated body comprises an inner liner that includes a proximal liner section and a distal liner section that include different materials, and an outer jacket positioned over the inner liner. The distal liner section has a first hardness and the proximal liner section has a second hardness, where the first hardness is less than the second hardness.

A gastric jejunal (GJ) feeding tube device for GJ feeding of an infant or child is provided. The device comprises a GJ button comprising a GJ button body, a gastric port, a jejunal port, a gastric channel, and a jejunal channel. The device also comprises a multi-lumen tube comprising a multi-lumen tube body, a multi-lumen tube proximal end, and a multi-lumen tube distal end. The device also comprises a jejunal tube comprising a jejunal tube body, a jejunal tube proximal end, a jejunal tube distal end, a spring, and a ring. The spring provides a kink-resistant feature. The ring is positioned at the jejunal tube proximal end. The jejunal tube and the GJ button are operatively connected at the ring and the mating surface by radial compression. The ring has a higher durometer than the jejunal tube body and an outer diameter that does not substantially decrease distally.

A system has a balloon guide catheter for use in mechanical thrombectomy procedures which requires very little preparation to inflate the balloon compared to most contemporary designs. The balloon guide catheter can have an elongated tubular member and a proximal luer. The elongated tubular member of the catheter can have two internal lumens. A first inner hollow lumen can have a large opening for aspiration and the advancement of auxiliary devices, and a second inflation lumen can provide a fluidic passageway to inflate the balloon. The proximal luer can have a luer lumen, an inflation port, and a mandrel hub. A removable mandrel can extend distally from the mandrel hub to occupy the full length and volume of the inflation lumen of the tubular member. A tab of the mandrel can extend external to the luer to facilitate removal of the mandrel from the catheter prior to inflating the balloon.

An insertion set system includes a base configured to be secured to a patient, and a flexible tubing on the base. The flexible tubing has a distal end portion forming a cannula to be inserted into the patient. An inserter having a needle is received by the base. The needle has a channel in which the distal end portion of the flexible tubing is received. The needle is able to slide relative to the flexible tubing, to selectively withdraw the needle off of the distal end portion of the flexible tubing. The base may include a passage for fluid flow arranged transverse to the axial dimension of the distal end portion of the flexible tubing.