An attachment system for selectively attaching to an interior surface of a hollow member, which includes an expanding device selectively enlargeable from a first size position to an enlarged second size position, a friction enhancement disposed about the expanding device that is engageable with the interior surface of the hollow member when the expanding device is in the enlarged position, and a fenestrated decoupling system extending between at least a portion of the friction enhancement of the expanding device and the interior surface of the hollow member. The fenestrated decoupling system generally prevents contact of the friction enhancement with the interior surface of the hollow member when the expanding device is in the first size position and permits contact of the friction enhancement with the interior surface of the hollow member when the expanding device is in the enlarged position.

Exemplary embodiments of devices and method for affecting at least one anatomical tissue can be provided. A configuration can be provided that includes a structure which is expandable (i) having and/or (ii) forming at least one opening or a working space through which the anatomical tissue(s) is placed in the structure. For example, the structure, prior to being expanding, can have at least one partially rigid portion. In addition, or as an alternative, upon a partial or complete expansion thereof, the structure can be controllable to have a plurality of shapes. Further, the structure can be controllable to provide the working space with multiple shapes and/or multiple sizes.

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.

An aortic occlusion device includes a catheter and a balloon mounted along the catheter, wherein the balloon is a narrow profile balloon. The narrow profile balloon comprises an anchored end fixed to the catheter, a movable end distal to the fixed end, a wall extending between the anchored end and the movable end, an inflatable tube located proximate along the wall and circumscribing the wall, and at least one tension wire attached to the movable end and extending through the catheter such that the at least one tension wire is accessible to move the movable end of the balloon towards the anchored end when the catheter is positioned in the aorta.

Devices for the treatment of vascular aneurysms are described. The treatment is achieved through the delivery of an effective amount of elastin stabilization agent to an isolated volume at the aneurysm. The elastin stabilization agent maybe embedded in a delivery composition. The device optionally has an aspiration means to improve the effectiveness of the treatment.

The disclosure presents methods and systems for applying a suction force to a surface of a left atrial appendage (LAA) with a tube attached to an exterior surface of an inflatable balloon. The disclosure also presents methods and systems for inflating a first inflatable balloon within a cavity of a left atrial appendage (LAA). A method may include applying a suction force with at least one tube coupled to the first inflatable balloon to attract the first inflatable balloon to an interior surface of the LAA or to a second inflatable balloon. A method may include puncturing, using a tissue-penetrating tip, a target surface of the LAA.

A method for treating tissue of at least one of an internal carotid artery, an ophthalmic artery, or an ostium between the internal carotid artery and the ophthalmic artery of a subject may include expanding a first expandable device of a first device in the internal carotid artery. The method also may include delivering a second device in the ophthalmic artery via the first device and expanding a second expandable device of the second device in the ophthalmic artery. Further, the method may include adjusting a radial position of the second expandable device relative to the first expandable device.

An indwelling device for insertion in a biological tubular structure comprising an elongated device having a body and opposing ends. The body has a bending stiffness transverse to a longitudinal axis that is greater than a stiffness of the biological tubular structure. An atraumatic tip member, having a proximal end and a distal end, extends from the end of the elongated device. The proximal end has a first bending stiffness transverse to a longitudinal axis and the distal end has a second bending stiffness transverse to the longitudinal axis, wherein the second bending stiffness being less than the first bending stiffness.

Interventional procedures on the carotid arteries are performed through a transcervical access while retrograde blood flow is established from the internal carotid artery to a venous or external location. A system for use in accessing and treating a carotid artery includes an arterial access device, a shunt fluidly connected to the arterial access device, and a flow control assembly coupled to the shunt and adapted to regulate blood flow through the shunt between at least a first blood flow state and at least a second blood flow state. The flow control assembly includes one or more components that interact with the blood flow through the shunt.

The disclosure presents methods and systems for applying a suction force to a surface of a left atrial appendage (LAA) with a plurality of tubes. A method may include puncturing the surface of the LAA using a tissue-penetrating tip while the suction force is applied to the surface. The disclosure also presents methods and systems for inflating a first inflatable balloon within a cavity of a left atrial appendage (LAA). A method may include applying a suction force with at least one tube coupled to the first inflatable balloon to attract the first inflatable balloon to an interior surface of the LAA or to a second inflatable balloon.