A guide wire that includes a core shaft that is made of a first material, a coil that is provided to cover an outer periphery of the core shaft and is formed by twisting a first wire made of the first material and a plurality of second wires made of a second material different from the first material, and a distal end joint that joints a distal end of the core shaft and a distal end of the coil, and the distal end joint is made of the first material and is continuous from the distal end of the core shaft and the distal end of the first wire, and the distal end joint wraps the distal ends of the plurality of second wires.

An apparatus includes a proximal coil, a distal coil, a navigation sensor, and a wire. The proximal coil is formed by a wire wrapped in a helical configuration. The distal coil is formed by a wire wrapped in a helical configuration. At least one wrap at a proximal portion of the distal coil is interlocked with at least one wrap at a distal portion of the proximal coil, such that interlocking portions of the proximal and distal coils form a double helix configuration. The navigation sensor is located within the distal coil. The navigation sensor is configured to generate signals in response to movement within an electromagnetic field. The wire extends through the proximal coil. The wire is in electrical communication with the navigation sensor such that the wire is configured to communicate signals from the navigation sensor.

A tubular body that includes a plurality of first wires distributed in an annular portion of the tubular body, and a plurality of deformed second wires alternately disposed between each of the plurality of first wires, the plurality of first wires and the plurality of deformed second wires being in an alternately twisted arrangement in a longitudinal direction of the tubular body, where each of the plurality of first wires has a substantially circular shape in a cross section view, and each of the plurality of deformed second wires has a non-circular shape in the cross section view, has an arcuate side portion that receive a part of a side surface of an adjacent wire of the plurality of first wires, and has an annular sector shape protruding in a radial direction in the cross section view of the tubular body.

A connection structure includes a multi-thread coil formed by winding first metal element wires formed of a first metal and second metal element wires formed of a second metal arranged between a first metal body including the first metal and a second metal body including the second metal. The first metal body is connected to the first metal element wires of the multi-thread coil, and the second metal body is connected to the second metal element wires of the multi-thread coil. The connection structure imparts improved flexibility to the connection between the first and second metal bodies, and an appropriate connection can be provided even when the first and second metal bodies are made of dissimilar metals.

An integrated guidewire includes a wire and an optical fiber. The wire is sized and shaped to move in an anatomical material transportation system of a patient. The optical fiber has proximal and distal ends, the proximal-end is coupled to a device external to the patient, the optical fiber is configured to transfer optical signals between the distal-end and the device, and the wire and the optical fiber are intertwined with respect to one another.

An integrated guidewire includes a wire and a flexible tube. The wire is sized and shaped to move in an anatomical material transportation system of a patient. The flexible tube is sized and shaped to move in the anatomical material transportation system, having proximal and distal ends, the proximal-end is coupled to a device external to the patient, the flexible tube is configured to transfer fluids between the distal-end and the device, and the wire and the flexible tube are intertwined with respect to one another.

The present disclosure describes delivery cables for delivering a medical device and methods of making and employing the same. In one embodiment, a delivery cable includes a flexible inner core, a proximal outer coil, and a distal outer coil. The proximal outer coil has a first rigidity. The distal outer coil surrounds at least a portion of a distal section of the flexible inner core and has a second rigidity less than the first rigidity thereby, thereby reducing bias placed on the medical device by the delivery cable during deployment of the medical device. Relative dimensions of an outer diameter of the distal outer coil and an inner diameter of a delivery sheath for deploying the delivery cable reduce snaking of the delivery cable within the delivery sheath.

A guidewire for use in intravascular procedures has a solder or weld joint at a distal end thereof. A plurality of dimples are formed on the solder/weld joint to increase the engagement and penetration of fibrous material including chronic total occlusions (CTO).

The guide wire includes a core shaft, a coil body with a wire helically wound around the outer periphery of the core shaft, and a coating layer provided on the outer periphery of the coil body. The coating layer has a peak portion protruding in the outer peripheral direction of the guide wire in a swollen state. On a cross-section including a central axis of the coil body, an apex of the peak portion is present at a position on a proximal end side of a first virtual straight line that extends through a central point of a first transverse section of the wire and is perpendicular to the central axis and at a position on a distal end side of a second virtual straight line that extends through a central point of second transverse section of the wire and is perpendicular to the central axis.

A guide wire includes a core shaft, a coil body disposed around an outer periphery of the core shaft, and a joining portion joining a distal end of the core shaft to a distal end of the coil body 3. An outer periphery of the joining portion has, at its proximal end, an uneven shape in a longitudinal direction of the guide wire. The outer periphery may include a protruded portion that protrudes proximally in the longitudinal direction, and a recessed portion that protrudes distally in the longitudinal direction. The guide wire has improved joining strength between the joining portion and the coil body, preventing the joining portion from detaching from the coil body.