A tissue closure system for closing vaginal tissue includes a tissue closure device having an end effector supporting one or more sutures securable to vaginal tissue. The one or more sutures may be separated from the end effector and tied to the vaginal tissue. The tissue closure system may include a tissue approximation device configured to apply negative pressure to vaginal tissue for approximating portions of the vaginal tissue together.

A sealant delivery apparatus for use in a lung access procedure to aid in preventing pneumothorax includes a sealant applicator device and an injection needle assembly. The injection needle assembly has a hub and an elongate hollow stylet. The hub is configured for removable connection to the sealant applicator device. The elongate hollow stylet is configured to facilitate fluid communication with at least one output port of the sealant applicator device to receive a multi-component sealant. The elongate hollow stylet has a proximal portion, a distal portion having a closed distal end, and a plurality of side ports proximal to the closed distal end. The plurality of side ports radially extend from a lumen and through a side wall of the elongate hollow stylet in the distal portion. The plurality of side ports are in fluid communication with the at least one output port of the sealant applicator device.

Multiple vascular wall penetrations are formed and sealed in a single blood vessel, typically a vein, for performing cardiac and other catheter-based procedures. Access sheaths are placed in two or more tissue tracts each having a vascular wall penetration at a distal end and into a lumen of the blood vessel. A catheter is advanced though each of the access sheaths to perform a therapeutic or diagnostic procedure. A vascular closure device is introduced through each access sheath, typically sequentially, and an occlusion element at a distal end of the device is deployed against an inner wall of the blood vessel in a manner so that the adjacent access sheath does not interfere or overlap with the deployed occlusion element. The vascular penetration at the distal end in that tissue tract may then be sealed prior to using another vascular closure device to seal a caudally adjacent vascular wall penetration.

A sealant for sealing a puncture through tissue includes a first section. e.g., formed from freeze-dried hydrogel, and a second section extending from the distal end. The second section may be formed from PEG-precursors including PEG-ester and PEG-amine, e.g., in an equivalent ratio of active group sites of PEG-ester/PEG-amine greater than one-to-one, e.g., such that excess esters may provide faster activation upon contact with physiological fluids and enhance adhesion of the sealant within a puncture. At least some of the precursors remain in an unreactive state until exposed to an aqueous physiological environment, e.g., within a puncture, whereupon the precursors undergo in-situ cross-linking to provide adhesion to tissue adjacent the puncture. For example, the PEG-amine precursors may include the free amine form and the salt form. The free amine form at least partially cross-links with the PEG-ester and the salt form remains in the unreactive state in the sealant before introduction into the puncture.

A device for occluding a perforation in a blood vessel includes a catheter shaft that has a first lumen and a second lumen. The first lumen is adapted to receive at least one of a guidewire and an implanted cardiac lead, and the second lumen is adapted to receive an inflation fluid. The device further includes an inflatable balloon that is carried by the catheter shaft. The inflatable balloon is adapted to receive the inflation fluid from the second lumen, wherein the second lumen includes a cross-sectional area at a location within the catheter shaft between 0.65 mm.sup.2 and 1.90 mm.sup.2 and the inflatable balloon comprises polyurethane having a Shore A durometer of about 85 A.

A biopsy tract sealant applicator device includes a housing and a syringe having a body that is configured to move in an interior chamber of the housing between an extended position and a retracted position. The body is configured for connection to a biopsy cannula. A plunger of the syringe has a piston configured to move in a cylinder of the syringe between a proximal position and a distal position. The spring unit is coupled to the body of the syringe and to the housing. A gear train is operatively coupled to each of the housing, the body of the syringe, and the plunger of the syringe. The gear train is configured to move the plunger of the syringe from the proximal position toward the distal position as the body is moved from the extended position toward the retracted position by a biasing force exerted by the spring unit.

The present disclosure provides a device and methods for acquiring tissue within a lumen or for closure of bodily openings.

The present application discloses devices and methods for performing a vascular closure procedure that comprises inserting a sheath into a tissue tract defined in a body part, temporarily sealing a vascular access site, flushing the tissue tract with a flushing fluid via the sheath, dispensing a procoagulant material into the tissue tract adjacent the vascular access site via the sheath, and then unsealing the vascular access site to cause coagulation of blood adjacent the vascular access site.

A method of performing a gas arthroscopy by injecting a joint capsule with sealant prior to insufflation with gas. This sealant can be any biocompatible gel or liquid with sufficient viscosity or sealing capability to prevent air embolisms while performing gas arthroscopy.

A blood vessel access closure device includes an inner blood vessel wall support member and an outer blood vessel wall support member. The closure device also includes a deployment member and an electrode. The deployment member is configured to draw the inner and outer blood vessel wall support members towards each other when the inner and outer blood vessel wall members are deployed on opposite sides of a blood vessel wall during closure of a hole in the blood vessel wall. The electrode is configured to be attached to the deployment member and configured to be used to measure impedance.