A method of retrieving calculus in a living body and relocating the calculus to a different location in the living body involves positioning an elongated member in the living body in which the calculus is located, drawing the calculus in the living body toward the elongated member while the elongated member is positioned in the living body so that the calculus is retained by the elongated member; moving the elongated member so that the elongated member is located at a position in the living body that is different from the position of the elongated member in the living body during the drawing of the calculus toward the elongated member; and releasing the calculus from the elongated member so that the calculus is at a position in the living body different from a location of the calculus in the living body while the calculus is being drawn toward the elongated member.

Described here are devices and methods for performing atherectomies. Generally, the atherectomy devices may comprise a handle, a cutter assembly, and a catheter or catheter assembly therebetween. The cutter assembly may include a cutter housing and a cutter comprising a first cutting element and a second cutting element, each of which may be rotated relative to the atherectomy device to cut occlusive material.

A manipulator including an elongated shaft, a distal-end treatment section disposed at a distal end of the shaft, a distal-end articulated section having a bendable joint and a rotatable joint, and a proximal-end operating section disposed at a proximal end side of the shaft, wherein the bendable joint has an axis intersecting a longitudinal axis of the shaft, the rotatable joint has an axis that intersects the axis of the bendable joint and that is substantially aligned with a central axis of the distal-end treatment section, the proximal-end operating section includes a first operating section gripped by one hand and causing the bendable joint to move about the axis intersecting the longitudinal axis of the shaft, and also includes a second operating section provided in the first operating section and causing the rotatable joint to move.

A medical/surgical device for performing tissue resection can include an endoscope with proximal and distal ends, defining working channels, and a snare assembly located in one of the working channels. The working channel may include a bend near the distal end and towards the outward radial wall of the endoscope. The snare assembly may include a snare loop and an actuation element imparted with the pre-formed angular bends and an actuation control handle. The bends of the actuation element and the working channel may be the same. The rotational manipulation of the actuation element may synchronize the pre-formed bend of the actuation element with the bend of the working channel to concentrically (or otherwise) align the deployed snare loop with the endoscope or endoscope attachments.

A system for performing minimally invasive procedures in a body lumen of a patient including a flexible catheter having a first lumen configured and dimensioned to receive an endoscope therethrough and a second lumen configured and dimensioned to receive a first flexible tube therethrough. The first flexible tube is movable through the second lumen and has a distal portion including a first curve extending in a first direction with respect to the longitudinal axis and a second curve extending in a second different direction with respect to the longitudinal axis. A retractor system is positioned at a distal portion of the catheter and is movable from a non-expanded insertion position to an expanded position forming an expanded cage to form a larger working space. The distal portion of the first flexible tube is movable within the expanded cage.

A cannula device for removing, including by aspirating, bodily material is disclosed. The device may include a cannula and a hub. The cannula includes an open proximal end and a deflectable distal segment, and one or a plurality of distal orifices fluidly connected to the lumen. When distally extended from an outer guide cannula, the deflectable segment assumes a curved shape, which includes temperature-dependent curvature subject to elevated temperature along a memory metal length of the cannula.

A trocar system, having a trocar, a trocar sleeve, an optical channel extending coaxially in the trocar for receiving an optical unit, and a hollow transparent distal tip of the trocar, which can be observed from the interior by means of the optical unit, wherein a working channel extends continuously from the proximal end to the distal end in the trocar and opens into an outlet opening in the region of the distal end, and wherein the inner wall of the working channel is formed at least in an axially continuous sub-region of the circumference thereof by the trocar sleeve.

The described invention provides an endovascular device including a tube containing a first end comprising a bifurcation and a second end comprising an opening. The bifurcation at the first end contains a first branch comprising a diameter of the first branch and a second branch comprising a diameter of the second branch, and the opening at the second end contains a primary opening comprising a diameter of the primary opening and a secondary opening comprising a diameter of the secondary opening. The first branch comprising the diameter of the first branch and the primary opening comprising the diameter of the primary opening form a working lumen comprising a diameter of the working lumen and a length of the working lumen, wherein the diameter of the working lumen comprises the diameter of the first branch and the diameter of the primary opening. The second branch comprising the diameter of the second branch and secondary opening comprising the diameter of the secondary opening form a support lumen comprising a diameter of the support lumen and a length of the support lumen, wherein the diameter of the support lumen comprises the diameter of the second branch and the diameter of the secondary opening.

The described invention further provides an endovascular device comprising a tube comprising a side-hole, a first segment comprising a primary opening and a second segment. The first segment extends from the primary opening to the side-hole, and the second segment extends from the side-hole and tapers to an end. The side-hole and the first segment form a working lumen comprising a diameter of the working lumen and a length of the working lumen, and the second segment forms a support lumen comprising a diameter of the support lumen and a length of the support lumen.

System and methods for channeling a path into bone include a trocar having a proximal end, distal end and a central channel disposed along a central axis of the trocar. The trocar includes a distal opening at or near the distal end of the trocar. The system includes a curved cannula sized to be received in the central channel, and having a curved distal end configured to be extended laterally outward from the distal opening in a curved path extending away from the trocar. The curved cannula has a central passageway having a diameter configured allow a probe to be delivered through the central passageway to a location beyond the curved path.

A uterine fibroid tissue removal device includes an inner tube disposed within an outer tube and configured to be translated and rotated relative to the outer tube, and a separately formed unitary distal tip member attached to a distal end of the inner tube, such that the distal tip member translates and rotates relative to the outer tube along with the inner tube, wherein a distal facing open cutting end of the distal tip member in fluid communication with an axial lumen of the distal tip member translates across a tissue resection window in a sidewall of the outer tube so as to sever tissue extending therethrough, the distal tip member axial lumen being in fluid communication with an axial lumen of the inner tube, wherein an outer diameter of the distal tip member is greater than an outer diameter of the inner tube.