Provided is a connection structure for connecting a treatment component to an operating wire using a coupling member. The treatment component has a rod-shaped proximal end. The coupling member includes a first hole portion into which the proximal end is configured to be inserted on one end, and a second hole portion into which the operating wire is configured to be inserted on the other end. With the proximal end inserted into the first hole portion, the proximal end and the coupling member are joined by swaging and plastically deforming part of the first hole portion. With the operating wire inserted into the second hole portion, the operating wire and the coupling member are joined by swaging and plastically deforming part of the second hole portion. Joint strength between the proximal end and the coupling member is higher than joint strength between the operating wire and the coupling member.

A method for removing tissues may comprise disposing a tissue resection device at a target tissue site, causing the tissue resection device to resect a core of tissue from the target tissue site, removing the core of tissue from the body, wherein the removing the core of tissue from the body creates a core cavity at the target tissue site.

A surgical instrument includes a first power source and a second power source. The first power source is configured to deliver power to a surgical instrument at a first rate of discharge. The second power source is configured to deliver power to the first power source at a second rate of discharge. The first power source and the second power source are positioned within the surgical instrument. The first power source and the second power source are further configured to communicate with a control module. The control module may rely on power from the first power source to drive an end effector of the surgical instrument. The end effector may comprise a harmonic/ultrasonic blade, RF electrosurgical electrodes, powered cutting/stapling features, and/or various other types of components.

In general, surgical devices switchable between monopolar functionality and bipolar functionality are provided. In an exemplary embodiment, a surgical device is configured to selectively apply each of bipolar energy and monopolar energy.

In various embodiments, a surgical instrument is provided that may comprise an end effector for performing a surgical procedure on tissue, for example. The end effector may comprise at least one energy delivery surface and heat dissipation means for dissipating heat from at least a portion of the end effector. For example, in at least one embodiment, the end effector may comprise a first jaw, a second jaw, and a cutting member. The cutting member may comprise a cutting surface and a body, which may define a cavity and at least one opening communicating with the cavity. A fluid may be moved through the cavity to and/or from the opening(s). Additionally, in at least one embodiment, a surgical instrument's end effector may comprise a first jaw, a second jaw, a cutting member, and at least one heat pipe. Various other heat dissipation means are also disclosed.

An endoscopic bipolar forceps includes an elongated shaft having opposing jaw members at a distal end thereof. The jaw members are movable relative to one another from a first position wherein the jaw members are disposed in spaced relation relative to one another to a second position wherein the jaw members cooperate to grasp tissue therebetween. The forceps also includes a source of electrical energy connected to each jaw member such that the jaw members are capable of conducting energy through tissue held therebetween to effect a seal. A generally tube-like cutter is included which is slidably engaged about the elongated shaft and which is selectively movable about the elongated shaft to engage and cut tissue on at least one side of the jaw members while the tissue is engaged between jaw members.

An electrosurgical instrument includes an instrument shaft, and a suction tube extending along the shaft, the suction tube being formed of an electrically-conductive material and including a way or portion by which it can be connected to a source of electrosurgical energy. A blade-like tissue treatment electrode extends from the shaft, the blade-like tissue treatment electrode being integrally formed by the distal end of the suction tube. The distal end of the suction tube is flattened to form the blade-like tissue treatment electrode, and the distal end of the suction tube is disposed at an angle to the longitudinal axis of the shaft.

An electrosurgical instrument for applying to biological tissue RF electromagnetic energy and/or microwave frequency EM energy, wherein the instrument tip has a protective hull with a smoothly contoured convex undersurface facing away from a planar body, and wherein the planar body has a tapering distal edge, and wherein an underside of the planar body extends beyond the protective hull at the tapering distal edge. Also disclosed herein is an interface joint for integrating into a single cable assembly all of (i) a fluid feed, (ii) a needle movement mechanism, and (iii) an energy feed (e.g. a coaxial cable), and a torque transfer device for permitting controlled rotation of the cable assembly within the instrument channel of an endoscope. The interface joint and torque transfer device may be integrated as a single component.

An adapter assembly is disclosed for attaching a lighting device to a handheld surgical instrument, which includes a first body portion configured to engage a distal end portion of the surgical instrument at a position along a central axis thereof, and a second body portion configured to support a lighting device adjacent the distal end portion of the surgical instrument, such that an illumination axis of the lighting device angularly intersects the central axis of the surgical instrument.

A surgical instrument probe or electrode including an longated cannula with a rod having an end effector on a distal end of the elongated cannula and a pencil hub on a proximal end of the elongated cannula. The end effector on the distal end of the elongated cannula may be a hook or a spatula, and the rod may be attached to an electrosurgical energy source to enable the end effector to perform a cauterizing function. The rod may be between about 100 mm to about 400 mm, and include a diameter of less than about 3 mm.