A vascular plug comprises a superstructure expandable from a collapsed percutaneous insertion configuration to an expanded deployment or use configuration. The superstructure incorporates a channel or passageway and a catheter extends through the channel or passageway from a proximal side at least to a distal side of the superstructure. The central channel allows for over-the wire plug delivery and a working aperture for secondary vascular interventions under flow arrest prior to final plug release. The plug includes spring-loaded mechanical elements or clotting-enhancement structure for closing the channel or passageway upon a withdrawal or removal of the catheter from the superstructure.

An occluding catheter for preventing stroke by occluding blood flow to right and left carotid arteries is provided. The occluding catheter includes a shaft that has a proximal end and a distal end, and a proximal occluding balloon carried by the shaft. The proximal occluding balloon is inflated to occlude blood flow through one of the right carotid artery and the left carotid artery. A distal occluding balloon is carried by the shaft and is inflated to occlude blood flow through one of the right carotid artery and the left carotid artery that is not occluded by the proximal occluding balloon. The shaft has a segment that is located between the proximal occluding balloon and the distal occluding balloon. Also provided are alternative arrangements with a single or dual inflation and/or guidewire channel, single occluding balloon, and an associated method of diverting emboli from cerebral circulation.

Disclosed herein is a method of producing high purity pentagalloyl glucose (PGG), analogues or derivatives thereof, at least 99.9% pure, by washing with dimethyl ether. PGG may be provided in a kit, including a hydrolyzer for dissolving the PGG and a saline solution. Also disclosed herein is a device for delivery of a therapeutic solution to a blood vessel. The device may be a catheter having an upstream balloon and a downstream balloon. The upstream balloon may be expanded to anchor the catheter and occlude antegrade blood flow. The downstream balloon may be expanded to occlude retrograde blood flow, creating a sealed volume within the blood vessel. The downstream balloon may have pores configured to deliver a therapeutic inflation solution into the sealed volume or a portion thereof. The downstream balloon may be expanded by the expansion of a balloon disposed inside the downstream balloon.

A catheter-based system is provided having two occlusion elements and a perfusion lumen having a distal opening distal to the occlusion elements and a proximal opening proximal to the occlusion elements. The occlusion elements can be expanded to block blood flow both distal to an intravascular treatment site and to block blood flow proximal to the treatment site, thereby isolating the treatment site. The perfusion lumen can allow blood to flow between the distal and proximal openings, through the treatment site, while remaining isolated from fluids in the treatment site. The system can further include a treatment lumen having a proximal opening accessible by a user to provide aspiration, drug delivery, mechanical device delivery, or other treatment into the vasculature and a distal opening positioned between the two occlusion elements and in communication with fluids at the isolated treatment site.

Various systems and methods are provided for reducing pressure at an outflow of a duct such as the thoracic duct or the lymphatic duct. A catheter system can include a catheter shaft configured to be at least partially implantable within a patient's vein, a flexible membrane attached to the catheter shaft, the flexible membrane being a collapsible, tube-like member having a lumen extending therethrough, and a single selectively deployable restriction member formed over a portion of the flexible membrane at substantially a midpoint between a proximal end of the flexible membrane and a distal end of the flexible membrane, the restriction member being configured to control a size of the lumen so as to direct a controlled volume of fluid from an upstream side of the restriction member to a downstream side the restriction member.

A punching device for punching a lumen and implanting an implant device includes at least the implant device for punching the lumen and for implantation into the lumen. In addition, the punching device includes an implantation device, a closure device, and an actuation device.

Disclosed herein is a method of producing high purity pentagalloyl glucose (PGG), analogues or derivatives thereof, at least 99.9% pure, by washing with dimethyl ether. PGG may be provided in a kit, including a hydrolyzer for dissolving the PGG and a saline solution. Also disclosed herein is a device for delivery of a therapeutic solution to a blood vessel. The device may be a catheter having an upstream balloon and a downstream balloon. The upstream balloon may be expanded to anchor the catheter and occlude antegrade blood flow. The downstream balloon may be expanded to occlude retrograde blood flow, creating a sealed volume within the blood vessel. The downstream balloon may have pores configured to deliver a therapeutic inflation solution into the sealed volume or a portion thereof. The downstream balloon may be expanded by the expansion of a balloon disposed inside the downstream balloon.

A medical system is disclosed that has three basic components; a retractable sheet, a first balloon that has a centrally arranged hollow, and a collapsible/expandable support structure at the hollow. The first balloon is for instance mounted/molded onto the exterior surface of the support structure. The aggregate of support structure and the first balloon is positioned, and once the sheet has been retracted from the first balloon, the first balloon is inflated. The support structure may be self-expandable or expandable by an expansion unit, such as a further balloon arranged at its inside. The lumen of the support structure is chosen to be smaller than that of a main lumen. The outside diameter of the inflated first balloon is chosen to be larger than the interior diameter of the main lumen.

Improved methods and devices for performing an endoscopic surgery are provided. Systems are taught for operatively treating gastrointestinal disorders endoscopically in a stable, yet dynamic operative environment, and in a minimally-invasive manner. Such systems include, for example, an endoscopic surgical suite. The surgical suite can have a reversibly-expandable retractor that expands to provide a stable, operative environment within a subject. The expansion can be asymmetric around a stabilizer subsystem to maximize space for a tool and an endoscope to each be maneuvered independently to visualize a target tissue and treat the target tissue from outside the patient in a minimally invasive manner.

The invention relates to medical technology, and more particularly to a device for the conservative treatment of nasal and paranasal sinus diseases. The present device comprises obturators for the posterior and anterior nasal openings, each obturator being in the form of an expandable sheath made of a resilient material and provided with a feed tube. The distal end of the tube is in communication with the cavity below the sheath, and the proximal end is provided with an adapter having a valve mechanism. The obturator sheath for the posterior nasal opening is hermetically fastened to the distal portion of its feed tube. The obturator sheath for the anterior nasal opening is hermetically fastened to a cuff. The cuff is provided with two channels, one of which holds the feed tube of the obturator sheath for the posterior nasal opening in such a way that the cuff can move along the entire length of the feed tube. The other channel holds a catheter for evacuating a pathological secretion from the paranasal sinuses and/or for introducing solutions of medicinal preparations into same for diagnostic or therapeutic purposes. The catheter is held in said channel in such a way that the distal portion thereof can be moved into the space between the obturator sheaths. The invention is intended to provide more effective treatment of nasal and paranasal sinus disorders.