A medical device system includes a medical device that is configured to be delivered to a lesion area in a body lumen, a guide wire that is configured to guide the medical device, a port member that is configured to introduce the guide wire and the medical device into a living body, a proximal-end fixing member that is configured to fix the guide wire and the port member and is provided with an operation unit that is configured to cause the guide wire to move in an insertion/pulling-out direction from the fixed state, an anchor device provided with an anchor portion in a distal portion thereof, and an anchor-device guide wire that is configured to guide the anchor device.

A handheld advancer is provided for advancing an elongate device through a pathway defined in an advancer body and include a rotatable manual control partially embedded in the body to receive a user-exerted manual control movement from a thumb of a single hand that can hold and control the advancer and advancement. The advancer can include a manual drive arranged to convert torque applied by the thumb for a rotation arc distance into a translation drive force applied for translating the elongate device an advancement distance scaled at force factor and distance factor. The distance factor can be one or greater than one and translate the elongate device an amplified advancement distance compared with manual input. The advancer can include a nip having a pair of rollers extending into the pathway providing constant control and amplified translation via concave compressible surfaces forming continuous contact regions with the elongate device.

A torque device for selectively securing, engaging, or gripping an elongate medical device is disclosed. The torque device can be configured to permit torquing of the elongate medical device by manipulation of the torque device. A securement mechanism for selectively securing, engaging, or gripping an elongate medical device is also disclosed. The securement mechanism may be adapted for use with the disclosed torque device, or the securement mechanism may also be adapted for use with other medical devices. For example, the securement mechanism may be adapted for use with a suture securement apparatus.

A torque apparatus for facilitating manipulation of a guidewire includes a handle member dimensioned for engagement by a clinician and defining a longitudinal axis and a torque member mounted to the handle member. The torque member defines a lumen configured for reception and passage of a guidewire and is configured to rotate relative to the handle member to impart rotational movement to the guidewire. A gripper member associated with the torque member is adapted to releasably secure the guidewire relative to the torque member and a trigger member depending from the handle member is actuable to cause the gripper member to release the guidewire to thereby permit the guidewire to be moved within the lumen of the torque member. An actuator is operatively coupled to the torque member and is movable to impart rotational movement to the torque member to thereby cause corresponding rotational movement of the guidewire.

A wire lock assembly for an access port of an elongate medical tube includes a body having an exterior surface, an interior surface, and a central opening disposed therethrough, an attachment mechanism disposed through the exterior surface of the body, the attachment mechanism having an open end and a closed end, at least one notch arranged on the body and positioned proximate to the central opening and at least one seal supported within the interior surface of the body in communication with the central opening, the seal comprising a passageway therethrough, where the interior surface of the body defines a non-linear pathway for securing one or more medical devices.

The present application discloses a handle configured to receive a catheter. The handle comprises a port that communicates with a lumen of the catheter and a mechanism is provided that moves the end of the catheter for positioning. The guide wire traverses a reservoir located in the handle. In particular, the handle comprises an enclosure with a conduit and a reservoir, where the conduit extends through the enclosure from the left side to the right side and the reservoir space has a curved or concave base. The bottom side and top side of the handle converge into a tapered point on the left side.

A catheter system utilizing one or more sensors is described. The catheter can be used as part of an embolic coil system, guidewire system, or combined embolic coil/guidewire system where the devices interact with the catheter system. A variable detachment embolic coil system and guidewire system are also described.

Elongate flexible medical devices can be capable of axial elongation through the mechanism of eversion or toposcopic expansion. In general, this may be accomplished by providing a flexible tubular device having a proximal end and a distal end. Retraction of the distal end in a proximal direction through the tubular body inverts the tube upon itself, causing an axial shortening of the overall length of the device. An original length of the device can be restored by coupling a pressurized media to the proximal end of the sleeve. If the distal end of the sleeve is temporarily restricted or closed, the pressurized media causes the distal end of the sleeve to travel distally until the full length of the sleeve has been restored.

A catheter holder includes an attachment section configured to be attachable to a holder tube that accommodates at least a portion of a sheath of an image diagnosis catheter in a wound state, a support section extending from the attachment section in a direction away from the wound holder tube, and a fixing section provided on a second end side of the support section, which is opposite to a first end side of the support section on which the attachment section is provided, and configured to fix a unit connector and a hub of the image diagnosis catheter to hold the outer tube, which is exposed from an opening portion of the holder tube, in a linear shape to be fixed in position.

This invention is a transvascularly placed steerable guidewire, further including internal steerability and the ability to articulate in a direction at right angles to its longitudinal axis at or near its distal end. The steerable guidewire is generally fabricated from stainless steel and includes an outer tube, an inner tube, hub structures, and a distal articulating region. The steerable guidewire can be advanced through a body lumen in its straight configuration and then be selectively articulated or curved to permit negotiation of tortuous curvature. The steerable guidewire hub can be removed to permit advancement of catheters over its proximal end followed by re-attachment of the hub to permit deflection of the distal end of the steerable guidewire. Removal of the hub can result in a limp guidewire or maintenance of a forced curvature of the distal end of the guidewire.