A medical guidewire assembly is movable through an exit portal of a guidewire introducer. The guidewire introducer and the medical guidewire assembly are each insertable, at least in part, into a patient. The medical guidewire assembly is configured to reduce, at least in part, the hoop stress surrounding a puncture hole extending through the tissue of the patient. This is done in response to movement, at least in part, of the medical guidewire assembly relative to the puncture hole (after the puncture hole has been initially formed).

Disclosed are introducer components, assemblies, and methods. For example, an introducer assembly can include a syringe and a needle assembly fluidly connected thereto. The needle assembly can include a needle and an access guidewire-advancement mechanism mounted on a proximal linear portion of a needle shaft of the needle. The needle shaft can include a sigmoid portion between a distal linear portion of the needle shaft and the proximal linear portion as well as a port in a transition from the sigmoid portion to the distal linear portion of the needle shaft. An access guidewire can be loaded in both the access guidewire-advancement mechanism and a needle-shaft lumen in the distal linear portion of the needle shaft in a ready-to-deploy state of the introducer assembly. In this way, the access guidewire can be immediately advanced into a blood-vessel lumen upon establishing a needle tract thereto with the needle.

Introducer assemblies and methods are disclosed. For example, an introducer assembly can include a syringe and a needle fluidly connected to the syringe. The syringe can include a barrel and a plunger disposed in the barrel. The plunger can include a one-piece plunger shaft and a piston fitted over a distal end of the plunger shaft. The plunger shaft can include a longitudinal plunger-shaft passageway extending from the distal end of the plunger shaft. The piston can include a piston through hole forming a portion of an access-guidewire passageway of the introducer assembly with the plunger-shaft passageway. The needle can include a needle shaft and a needle hub over a proximal portion of the needle shaft. In another example, a method is disclosed for securing vascular access with the foregoing introducer assembly.

Disclosed are rapidly insertable central catheter (“RICC”) insertion assemblies and methods. For example, a RICC insertion assembly can include a RICC, an access guidewire, an introducer needle, and a coupler coupling the foregoing components together. The introducer needle can include a needle shaft and a sheath. The needle shaft can include a longitudinal needle slot. The sheath can seal the needle slot thereunder except for a sheath opening thereto in a proximal portion of the sheath. The coupler can include a coupler housing and a valve module disposed in the coupler housing. The valve module can seal the needle shaft and the sheath therein. The access guidewire can include a proximal end coupled to the coupler and a distal end disposed in the introducer needle, thereby enforcing a loop in the access guidewire. The RICC can be disposed over the loop in a ready-to-deploy state of the RICC insertion assembly.

Disclosed are introducer components, assemblies, and methods. For example, an introducer assembly can include a fluidly connected syringe and needle. The needle can include a needle shaft and a needle hub over a proximal portion of the needle shaft. The needle hub can include a port and a valve disposed in the port. The port can be in a side of the needle hub proximal of a proximal end of the needle shaft. The valve can be configured to form a fluid-tight seal around an elongate medical device such as an access guidewire when passed through the port and into a needle-hub lumen of the needle hub. Such an access guidewire can be disposed in the introducer assembly just proximal of a needle tip of the needle. In this way, the access guidewire can be immediately advanced into a blood-vessel lumen upon establishing a needle tract thereto with the needle.

Disclosed are introducer components, assemblies, and methods. For example, an introducer assembly can include a fluidly connected syringe and needle. The needle can include a needle shaft and a needle hub over a proximal portion of the needle shaft. The needle hub can include a port and a valve disposed in the port. The port can be in a side of the needle hub proximal of a proximal end of the needle shaft. The valve can be configured to form a fluid-tight seal around an elongate medical device such as an access guidewire when passed through the port and into a needle-hub lumen of the needle hub. Such an access guidewire can be disposed in the introducer assembly just proximal of a needle tip of the needle. In this way, the access guidewire can be immediately advanced into a blood-vessel lumen upon establishing a needle tract thereto with the needle.

A medical tool includes, a deflectable distal end, at least a pull wire, and a deflection assembly. The at least pull wire having a first end coupled to the distal end of the medical tool and configured to be moved for deflecting the distal end. The deflection assembly is coupled to a second end of at least the pull wire and is configured to control a deflection of the distal end. The deflection assembly includes a first gear having a first rotation axis, and a second gear, having a second rotation axis and including a jagged surface for integrating with the first gear. The jagged surface is slanted relative to the second rotation axis, and when the first gear rotates, the second gear is configured to be rotated by the first gear, to move along the second rotation axis and to deflect the distal end by moving the pull wire.

Medical appliances including reinforcing bands and radiopaque marker bands are disclosed. In some embodiments, bands may comprise two or more material layers. A first layer may control the mechanical properties of a multilayered marking band, and a second layer may exhibit greater radiopacity than the first layer. Bands may also comprise a single layer.

In various examples, a medical device is configured to be at least partially insertable within a patient. The medical device includes a first elongate member including a sidewall surrounding and defining a lumen extending through the first elongate member between a first proximal end and a first distal end. A second elongate member is sized and shaped to fit within the lumen of the first elongate member. A coil is disposed within the sidewall of the first elongate member, wherein the coil is configured to sense a position of the second elongate member with respect to the coil. In some examples, the first elongate member includes a catheter, and the second elongate member includes a guidewire.

In various examples, a medical device is configured to be at least partially insertable within a patient. The medical device includes a first elongate member including a sidewall surrounding and defining a lumen extending through the first elongate member between a first proximal end and a first distal end. A second elongate member is sized and shaped to fit within the lumen of the first elongate member. A coil is disposed within the sidewall of the first elongate member, wherein the coil is configured to sense a position of the second elongate member with respect to the coil. In some examples, the first elongate member includes a catheter, and the second elongate member includes a guidewire.