In one example, a medical device may include a handle including a proximal portion and a distal portion, and the proximal portion may pivot relative to the distal portion. The medical device may also include an insertion portion coupled to the distal portion of the handle and configured to be positioned within a body lumen; and an articulation wire extending from the handle through the insertion portion. Pivoting of the proximal portion of the handle relative to the distal portion of the handle may move the articulation wire relative to the insertion portion to bend a distal portion of the insertion portion.

An end effector assembly of a tissue resecting device and a tissue resecting device including the end effector assembly and a handpiece assembly. The end effector assembly including a proximal hub housing, an inner drive core at least partially disposed within the proximal hub housing, a cutting member extending distally from the proximal hub housing and engaged with the inner drive core such that rotation of the inner drive core rotates the cutting member, and a lock and release mechanism operably coupled between the inner drive core and the proximal hub housing. The lock and release mechanism is transitionable between a locked condition rotationally fixing the inner drive core and the proximal hub housing relative to one another thereby rotationally locking the cutting member, and a release condition enabling relative rotation between the inner drive core and the proximal hub housing thereby enabling rotation of the cutting member.

An actuator assembly connects to a tool plug at a proximal end of a conventional bipolar electrosurgical forceps having electrodes at a distal end for applying electrical current to tissue. A switch body with an integral power cord includes a plug mount that accepts the tool plug and a switch for connecting the tool plug to an electrical generating apparatus when the switch is closed. An actuator body mounted to the switch body includes a pivotally mounted switch actuating member to which an actuator lever arm is adjustably mounted. The switch body and actuator body are configured so that when the tool is held in the user's hand with the plug mount secured to the tool plug, the actuator lever arm can be positioned for movement by a finger of the user's hand to move the switch actuating member and close the switch.

A RF ablation system includes a RF electrode coupleable to a RF generator for delivering RF energy from the RF generator to patient tissue for ablation, the RF electrode including an electrode hub, an electrode shaft extending from the electrode hub, and a cable extending from the electrode hub. The RF ablation system also includes an in-line controller coupleable to the RF generator for controlling the delivering of the RF energy from the RF generator along the RF electrode, wherein the in-line controller is configured for placement nearer the electrode hub than the RF generator and includes at least one actuator for controlling the delivering of the RF energy.

An energy treatment device includes a movable handle including a jaw and a first through hole, an elongated member, and a sheath including a hollow portion and a second through hole, wherein the hollow portion is configured to receive the elongated member. The second through hole is configured to extend so as not to overlap with the hollow portion. The movable handle is configured to rotate about an axis which is configured to pass through the first through hole and the second through hole such that the jaw is rotatable with respect to the sheath, and (D1+D2)/2<L1 is satisfied, where D1 is a diameter of the hollow portion, D2 is a diameter of the first through hole, and L1 is a distance between a central position of the hollow portion and a central position of the first through hole in an opening/closing direction of the jaw.

A handheld dissector includes a handle including an elongated cuff disposed at a distal end thereof. The elongated cuff defines an opening extending therethrough configured to receive a tissue specimen. The elongated cuff includes a proximal end including a cavity defined therein configured to receive a crimp ring configured to support a plurality of insulative tubes along an inner peripheral surface thereof. Each tube is configured to insulate a wire disposed therein and configured to extend from a distal end thereof. The crimp ring electrically couples to each wire. The dissector also includes a distal end configured to receive a return ring. An active lead operably couples to the crimp ring and a return lead operably couples to the return ring. An activation switch selectively energizes the dissector.

A device is described for treating a nasal airway by modifying a property of a nasal tissue of or near a nasal valve of the airway, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in the nasal airway. Various embodiments include an elongate shaft, a bipolar radiofrequency delivery member extending from one end of the shaft, and a handle attached to the elongate shaft at an opposite end from the radiofrequency delivery member. The radiofrequency delivery member is sized to be inserted into a nose and configured to at least temporarily deform the nasal tissue and deliver radiofrequency energy. The radiofrequency delivery member includes two rows of protruding electrodes disposed on a tissue contact surface, and the device is configured to deliver radiofrequency energy from one row of electrodes to the other row of electrodes.

An electrosurgical device comprising: an electrode having a first portion whose exterior is electrically uninsulated, a second portion whose exterior is electrically insulated, and a third portion; an elongated hollow body having an internal cavity, a front end, a rear end, an external surface, and an electrical wire arranged within the body. The hollow body is configured to reversibly receive the third portion of the electrode at the front end of the body such that electrical contact is made between the electrode and the electrical wire and the second portion of the electrode is not surrounded by the hollow body. A first button is provided for controlling a current flow at a first level to the electrode and is arranged on the external surface. A vacuum tube is slidably engaged by the body and has an inlet generally facing the front end and adjacent the electrode. A vacuum outlet port is arranged near the rear end of the body, and the outlet port, internal cavity, and vacuum inlet are in fluid communication with each other.

The present teachings provide for a device with a membrane and an underlying switch, an underlying switch actuator, or both that has a unique tactile pattern that is felt through the membrane when the membrane is aligned with the switch, switch actuator, or both, corresponding to the electrical state of the device. The membrane, the switch, the switch actuator or a combination thereof can be repositioned from a first position to a second position so that a different tactile feel is present through the membrane corresponding to a second electrical state.

A surgical instrument includes a housing, energizable member, first activation switch, cable assembly, and second activation switch. The housing is operatively associated with the energizable member. The first activation switch is coupled to the energizable member and is selectively transitionable from an open condition to a closed condition. The cable assembly is coupled to the housing at a first end and includes a plug at a second, opposite end, the plug housing a second activation switch selectively transitionable from an open condition to a closed condition. The plug is adapted to connect to the source of electrosurgical energy, wherein transitioning of the first activation switch from the open condition to the closed condition transitions the second activation switch from the open condition to the closed condition such that the second activation switch communicates with the source of electrosurgical energy to initiate the supply of energy to the energizable member.