Abstract: An electronic apparatus includes a circuit portion that is configured to control an operation of the electronic apparatus and a heat-activated mechanical switch including, for example, a shape-memory material. The shape-memory material has a property such that the shape-memory material assumes a predetermined shape when the electronic apparatus is heated to a transition temperature. The shape-memory material disables the apparatus by acting on the circuit portion when the shape-memory material assumes the predetermined shape.

Abstract: Methods and apparatus for cleaning a surgical instrument during a surgical procedure insert at least the portion of the surgical instrument that is to be cleaned into a vessel containing a liquid and applying ultrasonic vibrations to the liquid within the vessel to generate cavitation bubbles in the liquid. The bubbles formed by cavitation of the liquid are very effective at removing debris from the surgical instrument, particularly from crevices and difficult-to-reach areas of the surgical instrument. The liquid also can be heated by a heating element of the vessel or by activating a heat-generating transducer of the surgical instrument being cleaned, or both.

Abstract: An electronic apparatus includes a circuit portion that is configured to control an operation of the electronic apparatus and a heat-activated mechanical switch including, for example, a shape-memory material. The shape-memory material has a property such that the shape-memory material assumes a predetermined shape when the electronic apparatus is heated to a transition temperature. The shape-memory material disables the apparatus by acting on the circuit portion when the shape-memory material assumes the predetermined shape.

Abstract: A bipolar electrosurgical instrument comprises a handle (5), a body (1) joined to the handle, and a jaw assembly (12) joined to the body and arranged such that manipulation of the handle allows the opposed jaws of the jaw assembly to be opened and closed with respect to one another. A first of said opposed jaws (14) has at least a first coagulating electrode, and the other of said opposed jaws (13) has at least a second coagulating electrode and a cutting electrode (16) separated from the second coagulating electrode by an insulating member (17). The instrument is manipulated at the surgical site such that the jaws of the jaw assembly (12) are open with respect to one another, with the cutting electrode (16) and at least one of the first and second coagulating electrodes contacting tissue at the surgical site.

Abstract: A bipolar electrosurgical instrument comprises a handle (5), a body (1) joined to the handle, and a jaw assembly (12) joined to the body and arranged such that manipulation of the handle allows the opposed jaws of the jaw assembly to be opened and closed with respect to one another. A first of said opposed jaws (14) has at least a first coagulating electrode, and the other of said opposed jaws (13) has at least a second coagulating electrode and a cutting electrode (16) separated from the second coagulating electrode by an insulating member (17). The instrument is manipulated at the surgical site such that the jaws of the jaw assembly (12) are open with respect to one another, with the cutting electrode (16) and at least one of the first and second coagulating electrodes contacting tissue at the surgical site.

Abstract: A surgical instrument includes a jaw assembly (2) comprising first and second jaw members (3) and (4) pivotally connected one to the other so as to be movable between respective open and closed positions. First and second handle members (8) and (12) are connected to the first and second jaw members respectively, the first and second handle members each including a hollow tubular portion (10) and (14) at the distal end of the handle member. The first and second jaw members (3) and (4) each include an extension (6) and (7) at the proximal end of each jaw member. The external diameter of each extension and the internal diameter of each tubular portion are such that each handle member is connected to a respective one of the jaw members by means of a press-fit connection.

Abstract: A bipolar electrosurgical forceps comprises an elongated tubular barrel having a proximal end, a distal end and a lumen extending between these two ends. A handle is provided at the proximal end of the barrel and includes an actuating member for opening and closing a pair of forceps jaws that are mounted at the distal end of the barrel. The forceps jaws include cam slots in a proximal head portion thereof. A coupling member extends between the actuating member on the handle and the pair of forceps jaws. The coupling member includes drive pins that cooperate with the cam slots whereby squeezing of the actuating mechanism first effects pivotal rotation of the pair of forceps jaws over a first range of motion of the actuating member and translation without rotation of the forceps jaws over a second range of motion of the actuating member.

Abstract: Electrosurgical forceps are described that have jaws capable of being closed relative to one another, the jaws each supporting electrode structures especially shaped to enhance the ability of the instrument to desiccate/seal or cut tissue structures clamped between the opposed jaws. One of the opposed jaws has a generally arcuate cross-section with a raised central zone and the other electrode has a recess adapted to accommodate the raised central zone of the cooperating electrode. By appropriating the shaping the mating electrode surfaces, tissue structures placed between the jaws are stretched laterally as clamping occurs. The stretching action prevents bunching of the tissue and results in improved desiccation, sealing and cutting. A fine, uninsulated conductor disposed on the one jaw, but insulated from the electrode surface on that jaw, serves as a cutting electrode.

Abstract: A bipolar electrosurgical instrument comprises a handle (5), a body (1) joined to the handle, and a jaw assembly (12) joined to the body and arranged such that manipulation of the handle allows the opposed jaws of the jaw assembly to be opened and closed with respect to one another. A first of said opposed jaws (14) has at least a first coagulating electrode, and the other of said opposed jaws (13) has at least a second coagulating electrode and a cutting electrode (16) separated from the second coagulating electrode by an insulating member (17). The instrument is manipulated at the surgical site such that the jaws of the jaw assembly (12) are open with respect to one another, with the cutting electrode (16) and at least one of the first and second coagulating electrodes contacting tissue at the surgical site.

Abstract: A bipolar electrosurgical hook probe includes an end effector that includes first and second electrodes placed in parallel, closely-spaced relationship, each being of a relatively large surface area and a conductive reciprocally movable hook member that is movable into and out of a space between the first and second electrodes. A switch mechanism is provided by which an RF current can alternatively be made to flow between the first and second electrodes during electrocoagulation and from the hook electrode to each of the first and second electrodes when the instrument is operating in its cut mode.

Abstract: Electrosurgical forceps are described that have jaws capable of being closed relative to one another, the jaws each supporting electrode structures especially shaped to enhance the ability of the instrument to desiccate/seal or cut tissue structures clamped between the opposed jaws. One of the opposed jaws has a generally arcuate cross-section with a raised central zone and the other electrode has a recess adapted to accommodate the raised central zone of the cooperating electrode. By appropriating the shaping the mating electrode surfaces, tissue structures placed between the jaws are stretched laterally as clamping occurs. The stretching action prevents bunching of the tissue and results in improved desiccation, sealing and cutting. A fine, uninsulated conductor disposed on the one jaw, but insulated from the electrode surface on that jaw, serves as a cutting electrode.

Abstract: Electrosurgical forceps are described that have jaws capable of being closed relative to one another, the jaws each supporting electrode structures especially shaped to enhance the ability of the instrument to desiccate/seal or cut tissue structures clamped between the opposed jaws. One of the opposed jaws has a generally arcuate cross-section with a raised central zone and the other electrode has a recess adapted to accommodate the raised central zone of the cooperating electrode. By appropriating the shaping the mating electrode surfaces, tissue structures placed between the jaws are stretched laterally as clamping occurs. The stretching action prevents bunching of the tissue and results in improved desiccation, sealing and cutting. A fine, uninsulated conductor disposed on the one jaw, but insulated from the electrode surface on that jaw, serves as a cutting electrode.

Abstract: A bipolar electrosurgical hook probe includes an end effector that includes first and second electrodes placed in parallel, closely-spaced relationship, each being of a relatively large surface area and a conductive reciprocally movable hook member that is movable into and out of a space between the first and second electrodes. A switch mechanism is provided by which an RF current can alternatively be made to flow between the first and second electrodes during electrocoagulation and from the hook electrode to each of the first and second electrodes when the instrument is operating in its cut mode.