An apparatus for sealing a puncture includes a cartridge, a pusher member, a sealant, and a tamping device on a proximal end of the cartridge. During use, the cartridge, sealant, and pusher member are advanced over a positioning member and into the puncture by advancing a cartridge hub carrying the tamping device. When further distal advancement of the cartridge is limited, the cartridge hub is further advanced, activating the tamping device, and causing the pusher member to advance relative to the sealant to compress the sealant within the puncture.

An apparatus for sealing a puncture through a vessel wall including a positioning assembly, a sheath releasably engaged with the positioning assembly, and a support member axially advanceable through the sheath. The positioning assembly includes a positioning element positioned at a distal portion of the positioning assembly and a sealant disposed at a distal portion of the positioning assembly. The sheath guides the sealant and positioning assembly to the puncture in the vessel wall.

An adhesive pad for use with a hemostasis device comprising a footplate having a top surface and a receiving device positioned on the footplate, the adhesive pad comprising: (1) a flexible backing layer having a bottom surface, a central portion having an opening, a first side portion, and a second side portion; (2) an adhesive layer applied to the bottom surface of the backing layer; and (3) a release layer removably secured to the adhesive layer. The opening in the central portion of the backing layer is sized to fit the receiving device of the hemostasis device, and the adhesive layer applied to the bottom surface of the first and second side portions of the backing layer is configured to adhere to and extend beyond the top surface of the footplate.

An apparatus for sealing a puncture includes a cartridge, a pusher member, a sealant, and a tamping device on a proximal end of the cartridge. During use, the cartridge, sealant, and pusher member are advanced over a positioning member and into the puncture by advancing a cartridge hub carrying the tamping device. When further distal advancement of the cartridge is limited, the cartridge hub is further advanced, activating the tamping device, and causing the pusher member to advance relative to the sealant to compress the sealant within the puncture.

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.

An occlusion device with particular utility in occlusion of left atrial appendages is described. The occlusion device embodiments utilize an inflatable balloon or expandable element used to occlude the treatment site.

The present application discloses a device and methods for performing a vascular closure procedure that comprises inserting a sheath into a tissue tract defined in a body part and injecting a procoagulant material into the tissue tract adjacent a vascular access site via the sheath.

An apparatus for sealing a puncture through tissue having an introducer sheath therein includes an elongate positioning member including a housing on a proximal end and an expandable member on a distal end, and a cartridge advanceable along the positioning member from a proximal position to a distal position. The cartridge includes a tubular member including a sealant and an advancer member disposed within lumen of the tubular member. A sleeve is slidably disposed over the tubular member distal end such that, when the tubular member is advanced over the positioning member, the tubular member distal end enters the introducer sheath while the sleeve is stopped and slides over the tubular member to expose the tubular member distal end within the introducer sheath. The introducer sheath and cartridge are then withdrawn, exposing the sealant within the puncture.

An adhesive pad for use with a hemostasis device comprising a footplate having a top surface and a receiving device positioned on the footplate, the adhesive pad comprising: (1) a flexible backing layer having a bottom surface, a central portion having an opening, a first side portion, and a second side portion; (2) an adhesive layer applied to the bottom surface of the backing layer; and (3) a release layer removably secured to the adhesive layer. The opening in the central portion of the backing layer is sized to fit the receiving device of the hemostasis device, and the adhesive layer applied to the bottom surface of the first and second side portions of the backing layer is configured to adhere to and extend beyond the top surface of the footplate.

A system for use in sealing a portion of pleural layers together includes an electrical energy source, and an electrocautery probe electrically coupled to the electrical energy source. The electrocautery probe has a cannula shaft portion, a distal penetrating tip, and an intermediate portion interposed between the cannula shaft portion and distal penetrating tip. The electrocautery probe is configured to generate heat. A protein source is coupled to the intermediate portion of the electrocautery probe, wherein the protein source has a protein that is denatured by heat.