Several embodiments are set forth of devices, systems and methods for modifying an atrial appendage such as a left atrial appendage (LAA). In one embodiment, a medical device includes a frame member and a tissue growth member. The frame member includes a unitary, seamless central portion having a plurality of struts defining a multi-cellular structure and an anchoring system, the plurality of struts extending between and configured to self-expand and directly bias the anchor system to anchor the frame member at least partially within the LAA. With this arrangement, the tissue growth member is attached to the frame member to occlude the LAA.

Delivery systems and methods for forming and delivering biomaterials from two components are described herein. In particular, apparatus and methods for performing controlled delivery of multicomponent delivery of biomaterials into or onto a body part, such as a body lumen are described. More specifically, in some embodiments, the apparatus and methods are directed towards controlled delivery of micro-volumes of biomaterials into or onto a target location, the micro-volumes being defined as 0.001 mL-1 mL (or 1 μL-1,000 μL) of volume.

Manifolds and methods of operating manifolds are provided. An example manifold for controlling multi-lumen devices is provided that includes a substance supply mechanism. The substance supply mechanism independently provides a substance to, or remove a substance from, each of a plurality of lumens. The example manifold also includes a lumen selection mechanism. The lumen selection mechanism selectively opens and closes a connection between the substance supply mechanism and at least one of the plurality of lumens. A corresponding method of operation is also provided. An example embodiment also includes a manifold for use with a vessel seclusion device.

The present disclosure discussed a device, method and/or system for temporarily closing and/or constricting one or more blood vessels upstream and/or downstream of the vascular intervention site to allow for aspiration of vascular debris resulting from a peripheral vascular surgical procedure so as to effectively remove such debris.

A method and a medical elongate body are configured to prevent stagnation or turbulence of blood flow in a recess of a rugged pattern formed in a blood vessel due to bulging of a blood vessel wall at a lesion part of the blood vessel. The method involves partitioning an inside of the blood vessel into upstream and downstream sides of the recess, and introducing gel into the recess to at least partially fill the recess. A blood vessel lumen forming method and medical elongate body to form such a lumen are other aspects of the disclosure and involve introducing gel into the recess to at least partially fill the recess with the gel, and drilling the gel to remove at least some of the gel to form a passage and secure blood flow in the blood vessel.

Applicator for injecting a bulking agent at one or more selected submucosal positions in a periurethral tissue of a female patients' urethra. The applicator comprises a lance, such as a cystoscope with a distal end provided with one or more optical sensors, and a needle guide with a bore receiving the lance. The needle guide comprises needle channels at different angular positions, each needle channel extending between a needle entrance surface and an opposite shoulder surface. The needle channels are oriented to direct a needle via external peripheral tissue of the urethral meatus to a submucosal position at a urethra section, e.g., within the optical scope of the optical sensor.

The present invention relates to a device to photocure and/or photoactivate a photosensitive material. The device comprises several subsystems to transmit light towards an area of interest where a photosensitive material is applied as well as to collect light reflected by the applied photosensitive material. Reflected light is analyzed by an optical detector to monitor the photocuring and/or photoactivation process. Further means to inject or otherwise apply a photosensitive material can be combined in the same device. Methods for applying a fluent polymerizable material to a target site and for effecting polymerization of the fluent light-sensitive material in situ are also disclosed.

A catheter including a cutting element and an insertion tube, wherein the springy resilient cutting element (1) consists of a sleeve (1a) and profiled longitudinal arms (1b) with sharp endings (1c), protruding from it and directed towards an atraumatic tip (7), wherein the element (1) is mounted on an assembly (2) of an inner tube.

A vein ablation method is provided. The vein ablation procedure includes ultrasound guided cannulation of saphenous vein with a micro puncture method. An initially wire is placed across the vein to allow a vein stapler to be fired. Next the wire is place within the vein and after a sheath is placed, the wire-guided/venous catheter is placed into the vein as close to the foot as possible under ultrasound guidance. The ablation chemical is injected slowly while both the leg is elevated and while a compression stocking unrolled while the venous catheter is withdrawn. After removal of the sheath, placement of another vein stapler across the vein to isolate the segment of vein access site is an option.

An apparatus for performing a vascular treatment includes an intraluminal member that is controllingly moved during the vascular treatment. The intraluminal member of the vascular treatment device can be connected to a motor. The intraluminal member may be configured to retain endothelium during the vascular treatment procedure.