A catheter according to an embodiment of the present disclosure includes a mesh member, a first hollow shaft, a front end tip, a guiding film, and a core wire. The mesh member has a tubular shape and is radially expandable and contractable. The guiding film is formed with a stretchable material and is disposed on the mesh member, the guiding film having a front end located between a base end of the front end tip and a front end of the first hollow shaft. A thickness of a base end of the guiding film is larger than a thickness of the front end of the guiding film.

Systems and methods can involve wedge dissectors attached to strips in turn attached to medical balloons, for forming serrations within vascular wall tissue for angioplasty as well as drug delivery.

A method for in vivo location determination of a balloon catheter according to an embodiment of the present disclosure includes inserting into a body of a subject a balloon catheter including a balloon inflated by a balloon inflation composition including a radioactive isotope as an active ingredient; and detecting the in vivo location of the radioactive isotope. The balloon inflation composition for in vivo location determination of a balloon catheter allows accurate and safe determination of the location of the balloon catheter inserted into the body from outside the body.

The embodiments disclosed herein relate to balloon catheter assemblies. The balloon catheter assemblies can include a hub, an elongated member, and an inflation balloon. The balloon catheter assemblies can also include a support wire having a proximal end that is longitudinally displaceable within a sleeve that is disposed in the catheter hub. A distal end of the support wire may be coupled to the inflation balloon at one or more positions.

The invention relates to a device for closing a vein juncture in the treatment of varicose veins including a catheter which can be inserted into a venous system and at the distal end of which an expandable balloon is arranged, a covering which is arranged circumferentially on the balloon and can be expanded by means of said balloon, wherein the proximal covering end is designed to be open, and at least one adhesion agent for acting on the expanded covering such that it adheres to a vein wall in order to close the vein juncture.

Various embodiments of the present disclosure provide a medical device straightener. The medical device straightener can comprise an elongate shaft extending along a shaft longitudinal axis, the elongate shaft including a shaft proximal end and a shaft distal end, wherein a shaft inner wall of the elongate shaft defines a shaft lumen extending therethrough. The medical device straightener can comprise a bleedback valve that includes an outer circumferential surface. The bleedback valve can be disposed at a distal end of the elongate shaft, within the shaft lumen, wherein a portion of the outer circumferential surface is in communication with the shaft inner wall. The bleedback valve can define a radially expandable lumen longitudinally extending through a center of the bleedback valve.

A liquid injectable pharmaceutical drug product consisting of no less that 99 percent ethanol comprised of no less than 99 percent ethanol active pharmaceutical ingredient with a volume of at least 0.05 mL to be injected into a patient as a method of ablating/lysing cells.

A balloon embolization apparatus, system and method include a detachable balloon device mounted to the distal end of a catheter or microcatheter. The balloon device includes an elongated cannula having first and second axial lumens defined in the cannula, one lumen which allows for travel over a wire, an inflatable balloon disposed on the cannula, and a valve sleeve disposed between the balloon and the cannula. An inflation port on the cannula allows fluid to be introduced to the balloon via a channel in the catheter. The valve sleeve includes a vent offset from the inflation port in the cannula. The valve sleeve allows the introduced fluid to inflate the balloon, but prevents the fluid from escaping, thereby forming a check valve. Once inflated, the catheter is detached from the balloon apparatus. When the catheter is withdrawn, the balloon remains in place to allow for embolization.

A catheter system for treating lesions is provided. The system is suitable for treatment of bifurcation lesions, has a low profile and provides substantially predictable translational and rotational positioning. In one embodiment, the system includes a fixed wire balloon catheter and a partially attached guidewire lumen, wherein the guidewire lumen is attached to the catheter at a crotch point. The location of the crotch point is predetermined so as to provide substantially predictable positioning. Several embodiments of the system are described for various types of lesions and vessel configurations.

Disclosed is a system for vascular access, where the system allows for transitions between retrograde and antegrade access without generation of multiple access sites and without inducing extensive vascular damage. In embodiments, the system can include a vascular access portion including a body with a first lumen for preferentially providing access in a retrograde direction into a vessel, and a second lumen for preferentially providing access in an antegrade direction into the vessel. The body can be transitioned (e.g., by way of expansion, contraction, or other deformation mode) between a retrograde delivery mode and an antegrade delivery mode.