A medical device includes an elongated medical device body; a first operating line and a second operating line inserted in an axial direction of the medical device body; and a bending operating part for performing a bending operation of a distal end part of the medical device body by pulling the first and second operating lines, at an intermediate part and a proximal end part in the axial direction of the medical device body, the first and second operating lines extending in parallel so as to be spaced apart from each other in a circumferential direction of the medical device body, and at the distal end part in the axial direction of the medical device body, the first and second operating lines being curved and joined together so as to approach each other in the circumferential direction of the medical device body gradually toward a distal end side.

A medical device having multiple degrees of freedom independent of each other. The medical device includes a handle, an end effector, and a tubular section extending between the handle and the end effector. The end effector is configured to be rotated about a first axis extending through the tubular section without rotating the tubular section. And, the tubular section is configured to be rotated about the first axis with the end effector.

An instrument for endoscopic applications, including a tubular member having a handling end portion having a flexible portion and actuating devices located at the other end portion, and longitudinal elements for transferring the movement of the actuating devices to the handling end portion resulting in a change of orientation thereof, whereby the handling end portion includes at least two independent flexible portions, whereby the actuating end portion has a corresponding number of actuating devices, and whereby each actuating device is connected by its own set of longitudinal elements to a part of the handling end portion for effecting a change of orientation of one of the flexible portions.

Disclosed is a method for manufacturing a steerable instrument for endoscopic and/or invasive type applications, the instrument including an elongated tubular body having a proximal end part, a distal end part and an intermediate part between proximal and distal end parts, the proximal end part having at least one actuation proximal zone. The distal end part has at least one flexible distal zone, and the elongated tubular body is configured such that a movement of an actuation proximal zone is transferred to a corresponding flexible distal zone for a corresponding movement thereof. The elongated tubular body includes an inner, outer, and intermediate cylindrical elements having longitudinal elements between the inner and outer cylindrical elements. Inner, outer and intermediate cylindrical elements are coupled so movement of an actuation proximal zone is transferred by the longitudinal elements of one of the intermediate cylindrical elements to a corresponding flexible distal zone.

A catheter with a distal end that rotates through the conversion of linear motion to rotational motion, thus the distal end may be rotated without longitudinally advancing or retracting the distal end. The catheter includes a tube with a single helix or a dual chirality helix cut into the tube, a distal end segment, means for linear displacement of the helix, and means for coupling the junction point of the helix to the distal segment.

A device comprises a tubular member with a longitudinal axis having a proximal end and a distal end, at least one partial cut located at, along or near the distal end of the tubular member, the at least one partial cut comprising an orientation that is angled relative to both the longitudinal axis and an axis transverse to the longitudinal axis, a pusher member positioned within an interior of the tubular member and configured to selectively advance the distal end of the tubular member longitudinally, wherein the distal end of the tubular member is configured to at least partially rotate when the pusher member is advanced relative to the tubular member so at to facilitate placement of the distal end in a particular branch of a subject's intraluminal network, wherein the distal end of the tubular member is configured to longitudinally elongate along or near an area of the at least one partial cut.

An apparatus includes a cylindraceous sleeve body, a navigation sensor, and an interface feature. The cylindraceous sleeve body includes an open proximal end, an open distal end, and a lumen extending from the open proximal end to the open distal end. The lumen is sized and configured to receive a shaft of a medical instrument. The navigation sensor is positioned at the open distal end of the cylindraceous sleeve body. The interface feature is configured to couple the navigation sensor with an image guidance system. The navigation sensor is configured to cooperate with an image guidance system to provide feedback indicating a position of the navigation sensor in three-dimensional space.

An oocytes or ovum retrieval device is disclosed. The device may include a retrieval catheter dimensioned for transvaginal insertion into a cervical canal and for advancing distally into a fallopian tube and the ampulla of a female mammal. The retrieval catheter may include one or more fluid delivery lumens having a fluid delivery port for delivering a flushing fluid into said fallopian tube, an at least one aspiration opening in fluid connection with an internal aspiration lumen of said retrieval catheter, wherein the size of the at least one aspiration opening is determined based on a size of oocytes or ovum.

The embodiments described herein relate to a self-positioning, quick-deployment low profile transvenous electrode system for sequentially pacing both the atrium and ventricle of the heart in the “dual chamber” mode, and methods for deploying the same.

A septal cross system is provided for a cerclage procedure for treating dysfunctional heart. The cerclage septal cross system includes a puncture catheter and a capture catheter. The puncture catheter a puncture catheter comprises a first lumen for a guidewire to be inserted thereinto. A coil element is arranged in the distal portion of the puncture catheter. The distal end of the pull-wire is attached to the distal portion of the coil element. The proximal end of the pull-wire is extended to the distal portion of the puncture catheter. The pull-wire is configured to bend inwardly the distal portion of the puncture catheter. A capture catheter comprises a first lumen for a first guidewire to be inserted thereinto and a second lumen for a second guidewire to be inserted thereinto. The distal end of the second wire has a snare wherein the distal portion is deflectable.