A surgical instrument is disclosed, which is configured to be releasably connectable to a hand-piece. The surgical instrument includes electrical contacts configured to be electrically connected to the hand-piece. The surgical instrument further includes a sealing member having sealing elements. At least one sealing element of the plurality of sealing elements is formed of an elastomeric material and is configured to form a seal around one the electrical contacts when the surgical instrument is connected to the hand-piece, such that the electrical contact is electrically isolated from other electrical contacts on the surgical instrument. At least one sealing element is configured such that a force required to connect the surgical instrument to the hand-piece is not reliant on a bulk compression of the elastomeric material.

A cryoablation catheter, comprising a balloon (1) and a delivery catheter (2) passing through the balloon (1). The delivery catheter (2) is provided with a fluid inflow cavity (21) and a fluid outflow cavity (22) therein. The fluid inflow cavity (21) extends into the balloon (1), and a side wall of the fluid inflow cavity (21) is provided with a spray head (211) that injects a liquid into the balloon (1). The spray head (211) has a number of spray holes (2111, 2112) circumferentially arranged on the exterior of the fluid inflow cavity (21). An end of the fluid outflow cavity (22) has a cross section (24) that seals the fluid outflow cavity (22), and a side wall of the fluid outflow cavity (22) is provided with a reflow hole (221) in communication with the balloon (1). A fluid flows from the fluid inflow cavity (21) through the nozzle holes (2111, 2112) into the balloon (1). The nozzle holes (2111, 2112) are evenly distributed outside the fluid inflow cavity (21), so that the interior of the balloon (1) is uniformly filled with the refrigeration fluid, ensuring the uniformity of heat exchange at each part of the balloon (1) in an axial direction. The fluid then flows out from the reflow hole (221). The structural design can effectively improve the heat exchange efficiency of the fluid, and the production and processing processes are relatively simple.

A tool assembly for use with an electrosurgical device for cutting tissue includes a base portion, a return lead, an electrical insulator, a center pin, and an active lead. The center pin extends from the base portion and through a lumen of the electrical insulator. The active lead is securely fixed to the base portion and extends between the base portion and a distal portion of the center pin such that a portion of the active lead extends around the distal portion of the center pin and first and second segments of the active lead are spaced apart from the return lead. Upon activation, electrosurgical energy is transmitted from the active lead through tissue to the return lead to cut tissue in contact with the active lead.

Methods and devices for treating nasal airways are provided. Such devices and methods may improve airflow through an internal and/or external nasal valve, and comprise the use of mechanical re-shaping, energy application and other treatments to modify the shape, structure, and/or air flow characteristics of an internal nasal valve, an external nasal valve or other nasal airways.

A surgical device (10) includes a handle (122) and a rotatable assembly (130) coupled and rotatable with respect to the handle (122). The surgical device (10) further includes a switch (126) coupled to the handle (122) and having a plurality of positions. A first inductor (1122) is coupled to the switch (126) and a second inductor (1102) is coupled to the rotatable assembly (130). A current signal propagating through the first inductor (1122) and/or a current signal propagating through the second inductor (1102) changes based on a position of the switch (126).

A method and system for assessing lesion formation in tissue is provided. The system includes an electronic control unit (ECU). The ECU is configured to acquire values for first and second components of a complex impedance between the electrode and the tissue, and to calculate an index responsive to the first and second values. The ECU is further configured to process the ECI to assess lesion formation in the tissue.

A surgical instrument includes a shaft having a proximal end and a distal end and end effector coupled to the distal end of the shaft. An electrical transmission conduit extends along the shaft from the proximal end to the distal end and is configured to deliver electrical energy to energize the end effector. A connector assembly electrically couples the electrical transmission conduit to the end effector, and the end effector is pivotably coupled to the connector assembly. In another aspect, a surgical instrument includes a pin, an electrically conductive connector including a contact portion and an attachment, the contact portion surrounding the pin. An electrical conduit is electrically coupled to the attachment of the connector. An electrically conductive jaw including an aperture is pivotable around the contact portion, and the contact portion electrically contacts the jaw at the aperture of the jaw.

A slip ring assembly is used with a surgical shaft assembly. The slip ring assembly includes a slip ring, a first conductor mounted on the slip ring, a commutator rotatable relative to the slip ring, and a second conductor mounted on the commutator. The slip ring assembly further includes a flexible member disposed between the slip ring and the commutator. The flexible member comprises a body and flexible protrusions extending from the body, wherein the flexible protrusions are elastically deformed against the first slip ring.

An ultrapolar telescopic electrosurgery pencil that can be used in both monopolar and bipolar modes for cutting and coagulation. The ultrapolar telescopic electrosurgery pencil can operate at very low power levels (such as 15-20 Watts or less) to both cut and coagulate tissue thereby reducing patient risk and damage to tissue.

A medical device includes a shaft including a distal end including a passive electrode that defines a central opening extending through the passive electrode, and an active electrode within the central opening. The active electrode is movable between at least an extended position in which the active electrode does not contact the passive electrode, and a retracted position in which the active electrode contacts the passive electrode.