The present disclosure is directed to multi-segment intraluminal guide wires including an elongate distal portion comprising a first metallic material (e.g., nitinol), an elongate proximal portion comprising a second metallic material (e.g., stainless steel). The distal and proximal portions may be directly joined together end to end by a solid-state weld joint. A diameter of the weld region surrounding the weld joint on either side of the weld joint may be reduced (e.g., ground down) relative to the diameter of the distal and proximal portions of the guide wire on either side of the weld region. A stiffness adjusting sleeve may be disposed over the weld joint so that a transition profile of bending stiffness across the weld region is gradual, rather than abrupt across the distal portion of the guide wire to the proximal portion of the guide wire. A polymer jacket may cover the sleeve and distal portion.

A male coupler for a guidewire, the guidewire having a hollow walled tube, the male coupler comprising a connector section, coupled with the guidewire, a portion of the connector section having a diameter smaller than the diameter of the hollow tube, at least one conducting ring coupled with the connector section where the diameter of the connector section is smaller the diameter of the guidewire, wherein the diameter of connector section and the at least one conducting ring substantially equals the diameter of the guidewire.

A guide member system includes a guide member, a light source, and a detector. The guide member comprises at least one illumination fiber. The at least one illumination fiber distally transmits the light projected by the light source from the proximal end of the guide member to the distal end of the guide member. The distal end of the guide member is projects the distally transmitted light. The distal end of the guide member receives light projected from the distal end of the guide member and reflected back toward the distal end of the guide member. The at least one illumination fiber proximally transmits the reflected light from the distal end of the guide member to the proximal end of the guide member. The proximal end of the guide member projects the proximally transmitted light toward the detector. The detector detects the proximally transmitted light.

A shape sensing enabled instrument includes a flexible guide wire or support rod including an outer surface which encapsulates interior features. The interior features include an optical fiber lumen (105) configured to receive one or more optical fibers for optical shape sensing, and a guide wire support rod or the support rod forming a hollow extending longitudinally along the instrument. The guide wire support rod or the support rod is configured to receive the optical fiber lumen therein to permit rotation and translation of an optical fiber and to protect the optical fiber.

A double guide wire includes two guidewires deployed concentrically, one within the other. Each guidewire is formed as an elongated flexible shaft having a distal portion including a deflectable helical coil terminating at a distal tip. The first guidewire is implemented as a hollow guidewire having a central lumen extending along its length, while the second guidewire is configured as a smaller gauge guidewire deployed within the central lumen of the first guidewire. An adjuster mechanism allows the inner guidewire to be advanced and retracted relative to the outer guidewire, transforming the guidewire between: a first state in which the distal tip of the second guidewire is adjacent to the distal tip of the first guidewire; and a second state in which at least part of the distal portion of the inner guidewire is advanced beyond distal tip of the first guidewire.

The present disclosure relates to guidewire devices having shapeable tips and effective torquability. A guidewire device includes a core having a proximal section and a tapered distal section. A tube structure is coupled to the core such that the tapered distal section of the core extends into and distally beyond the tube structure. The portion of the core extending distally beyond the tube forms a shapeable tip. A polymer covering encompasses the tip. The tip is configured to reduce the tendency of resilient forces from the tube structure to disrupt a customized shape of the tip.

A rigidizing device includes an elongate flexible tube, a braid layer positioned over the elongate flexible tube, an outer layer over the flexible tube and the braid layer, and an inlet between the elongate flexible tube and the outer layer and configured to attach to a source of vacuum or pressure. The braid layer has a plurality of strands braided together at a braid angle of 5-40 degrees relative to a longitudinal axis of the elongate flexible tube when the elongate flexible tube is straight. The rigidizing device is configured to have a rigid configuration when vacuum or pressure is applied through the inlet and a flexible configuration when vacuum or pressure is not applied through the inlet. The braid angle is configured to change as the rigidizing device bends when the rigidizing device is in the flexible configuration.

The present disclosure relates to guidewire devices having shapeable tips and increased flexibility. In one embodiment, a guidewire device includes a core having a proximal section and a distal section. The distal section includes a terminal section proximally adjacent to a distal end of the core, wherein the length of the terminal section is greater than the distance between a proximal end and a distal end of the terminal section. The terminal section may be curved or bent to form creases along distinct lines.

The present disclosure relates to guidewire devices having shapeable tips and effective torquability. A guidewire device includes a core having a proximal section and a tapered distal section. A tube structure is coupled to the core such that the tapered distal section extends into the tube structure. The tube structure includes a plurality of bypass cuts formed tangentially within the tube structure to increase the flexibility of the tube structure and to reduce the tendency of resilient forces from the tube structure to disrupt a shaped distal tip of the guidewire device.

A guide wire assembly for medical use includes at least a portion which is formed of a plurality of inter-cooperating elements forming a flexible section of the guide wire assembly, and specifically a section that can have varying flexibility. A control device passes through a lumen extending for the whole length of the guide wire and is typically fixed at a distal end of the assembly. The control device is used to change the flexibility of the guidewire assembly and in some embodiments to lock it in position. The elements have tapering internal lumens for accommodating the control device, particularly when the guide wire is bent.