Abstract: A steerable introducer deflectable via a handle assembly is described. The handle assembly includes slide members disposed within a slide chassis and coupled to deflection wires to deflect the introducer, and a slide block divider for constraining slide members. The slide block divider and the slide chassis combine to form a slide compartment in which each of the first slide member and the second slide member is slidably disposed. The slide block divider can prevent the deflection wires from crossing each other within the handle assembly, and constrain each of the slide members during translation within the slide compartment to inhibit motion transverse to a longitudinal direction of the slide compartment. The slide block divider can provide an improved handling of the steerable introducer.

Abstract: A catheter has a body including a proximal region, a neck region, and a distal region. A shaping wire is disposed within the distal region to predispose it into at least a partial loop, which may have a fixed or variable radius of curvature. The shaping wire includes a distal portion having a circular transverse cross-sectional shape and a proximal portion having a non-circular (e.g., rectangular) transverse cross-sectional shape. The proximal portion of the shaping wire can have a width-to-thickness ratio of at least about 4, such as about 4.67. A transition portion can promote a gradual transition from the circular to the non-circular transverse cross-sectional shape, for example by increasing a width of the shaping wire by about 0.001? and/or by decreasing a thickness of the shaping wire by about 0.001? for every about 0.004? in length through the transition portion.

Abstract: Various embodiments of the present disclosure can include flexible catheter tip. The flexible catheter tip can include an inboard understructure that defines a tip longitudinal axis, wherein the inboard understructure can be formed from a first continuous element that includes afirst rectangular cross-section. An intermediate inboard covering can be disposed about the first continuous element that forms a distal portion of the inboard understructure. An outboard understructure can extend along the tip longitudinal axis, wherein the outboard understructure can be formed from a second continuous element that includes a second rectangular cross-section. An intermediate outboard covering can be disposed about the second continuous element that forms a distal portion of the outboard understructure.

Abstract: Various embodiments of the present disclosure can include flexible catheter tip. The flexible catheter tip can include an inboard understructure that defines a tip longitudinal axis, wherein the inboard understructure can be formed from a first continuous element that includes a first rectangular cross-section. An intermediate inboard covering can be disposed about the first continuous element that forms a distal portion of the inboard understructure. An outboard understructure can extend along the tip longitudinal axis, wherein the outboard understructure can be formed from a second continuous element that includes a second rectangular cross-section. An intermediate outboard covering can be disposed about the second continuous element that forms a distal portion of the outboard understructure.

Abstract: Various embodiments of the present disclosure can include flexible catheter tip. The flexible catheter tip can include an inboard understructure that defines a tip longitudinal axis, wherein the inboard understructure can be formed from a first continuous element that includes a first rectangular cross-section. An intermediate inboard covering can be disposed about the first continuous element that forms a distal portion of the inboard understructure. An outboard understructure can extend along the tip longitudinal axis, wherein the outboard understructure can be formed from a second continuous element that includes a second rectangular cross-section. An intermediate outboard covering can be disposed about the second continuous element that forms a distal portion of the outboard understructure.

Abstract: A catheter has a body including a proximal region, a neck region, and a distal region. A shaping wire is disposed within the distal region to predispose it into at least a partial loop, which may have a fixed or variable radius of curvature. The shaping wire includes a distal portion having a circular transverse cross-sectional shape and a proximal portion having a non-circular (e.g., rectangular) transverse cross-sectional shape. The proximal portion of the shaping wire can have a width-to-thickness ratio of at least about 4, such as about 4.67. A transition portion can promote a gradual transition from the circular to the non-circular transverse cross-sectional shape, for example by increasing a width of the shaping wire by about 0.001? and/or by decreasing a thickness of the shaping wire by about 0.001? for every about 0.004? in length through the transition portion.