Abstract: The present invention provides a drive shaft for a bipolar surgical instrument, the drive shaft comprising an elongate body defining a first axis, and having a proximal end portion and a distal end portion, the elongate body comprising: a first portion defining a first open channel extending along a portion of the length of the elongate body; and a second portion distinct from the first portion, the second portion defining a second open channel extending along a portion of the length of the elongate body, wherein both the first and second portions are aligned with one another and extend parallel to the first axis, and wherein the first portion is spaced apart from the second portion so as to define a recessed blade track therebetween, the recessed blade track extending parallel to the first axis. The present invention further provides a bipolar surgical instrument incorporating such a drive shaft.

Abstract: The present invention provides a drive shaft for a bipolar surgical instrument, the drive shaft comprising an elongate body defining a first axis, and having a proximal end portion and a distal end portion, the elongate body comprising: a first portion defining a first open channel extending along a portion of the length of the elongate body; and a second portion distinct from the first portion, the second portion defining a second open channel extending along a portion of the length of the elongate body, wherein both the first and second portions are aligned with one another and extend parallel to the first axis, and wherein the first portion is spaced apart from the second portion so as to define a recessed blade track therebetween, the recessed blade track extending parallel to the first axis. The present invention further provides a bipolar surgical instrument incorporating such a drive shaft.

Abstract: The present invention provides a drive shaft for a bipolar surgical instrument, the drive shaft comprising an elongate body defining a first axis, and having a proximal end portion and a distal end portion, the elongate body comprising: a first portion defining a first open channel extending along a portion of the length of the elongate body; and a second portion distinct from the first portion, the second portion defining a second open channel extending along a portion of the length of the elongate body, wherein both the first and second portions are aligned with one another and extend parallel to the first axis, and wherein the first portion is spaced apart from the second portion so as to define a recessed blade track therebetween, the recessed blade track extending parallel to the first axis. The present invention further provides a bipolar surgical instrument incorporating such a drive shaft.

Abstract: A jaw member for an electrosurgical instrument is manufactured by providing a jaw housing (1) having a longitudinal jaw section (2), and an electrically conductive plate (11) including one or more passages (14) therein. The electrically conductive plate is disposed on the jaw section of the jaw housing, and placed into a mold (15). A flowable insulating material (18) is injected into the mold to secure the electrically conductive plate to the jaw housing, such that the flowable material (18) flows through the one or more passages (14) to form one or more stop members (21) that project a predetermined distance from the electrically conductive plate.

Abstract: An end effector for an electrosurgical instrument includes a pair of opposing first and second jaw members movable between an open position in which the jaw members are disposed in a spaced relation relative to one another, and a closed position in which the jaw members cooperate to grasp tissue therebetween. A first sealing electrode is located on the first jaw member, and a second sealing electrode is located on the second jaw member. One or more stop members are disposed on the sealing electrodes, the one or more stop members being formed of a compliant material such that they are capable of deforming when the jaw members are moved to their closed position with tissue grasped therebetween.

Abstract: An end effector for an electrosurgical instrument includes a pair of opposing first and second jaw members (2), (3), movable between an open position in which the jaw members are disposed in a spaced relation relative to one another, and a closed position in which sealing surfaces of the jaw members cooperate to grasp tissue therebetween. A first sealing electrode (9) is located on the first jaw member (2), while a second sealing electrode (10) is located on the second jaw member (3). One or both of the sealing surfaces are provided with electrically conductive stop members (12), the one or more stop members maintaining a predetermined spacing between the first and second sealing electrodes when the jaw members are in their closed position. One or more insulating members (14), (17), (19) are present to prevent the conductive stop members from causing an electrical short between the first and second sealing electrodes when the jaw members are in their closed position.

Abstract: A method of amputating and morcellating a uterus (10) includes introducing a first tissue bag (1) into the abdomen of the patient, and placing the first tissue bag over the uterus. A laparoscopic surgical instrument (11) is introduced into the first tissue bag, and the uterus (10) is amputated using the laparoscopic surgical instrument. The first tissue bag (1) is closed around the amputated uterus, and the first tissue bag containing the amputated uterus is placed into a second tissue bag (20). A morcellating instrument is introduced into the second tissue bag (20) and the uterus is morcellated within the second tissue bag. Once the uterus (10) has been morcellated, the second tissue bag (20) containing the morcellated uterus is removed from the abdomen of the patient.

Abstract: An end effector for an electrosurgical instrument includes a pair of opposing first and second jaw members (2), (3), movable between an open position in which the jaw members are disposed in a spaced relation relative to one another, and a closed position in which the jaw members cooperate to grasp tissue therebetween. A first sealing electrode (11) is located on the first jaw member, and a second sealing electrode (15) is located on the second jaw member. One or more stop members (21), (22), (25), (26) are disposed the sealing electrodes, the one or more stop members being formed of a compliant material such that they are capable of deforming when the jaw members (2), (3) are moved to their closed position with tissue grasped therebetween.

Abstract: An end effector for an electrosurgical instrument includes a pair of opposing first and second jaw members (2), (3), movable between an open position in which the jaw members are disposed in a spaced relation relative to one another, and a closed position in which sealing surfaces of the jaw members cooperate to grasp tissue therebetween. A first sealing electrode (9) is located on the first jaw member (2), while a second sealing electrode (10) is located on the second jaw member (3). One or both of the sealing surfaces are provided with electrically conductive stop members (12), the one or more stop members maintaining a predetermined spacing between the first and second sealing electrodes when the jaw members are in their closed position. One or more insulating members (14), (17), (19) are present to prevent the conductive stop members from causing an electrical short between the first and second sealing electrodes when the jaw members are in their closed position.

Abstract: A jaw member for an electrosurgical instrument is manufactured by providing a jaw housing (1) having a longitudinal jaw section (2), and an electrically conductive plate (11) including one or more passages (14) therein. The electrically conductive plate is disposed on the jaw section of the jaw housing, and placed into a mould (15). A flowable insulating material (18) is injected into the mould to secure the electrically conductive plate to the jaw housing, such that the flowable material (18) flows through the one or more passages (14) to form one or more stop members (21) that project a predetermined distance from the electrically conductive plate.

Abstract: A method of amputating and morcellating a uterus (10) includes introducing a first tissue bag (1) into the abdomen of the patient, and placing the first tissue bag over the uterus. A laparoscopic surgical instrument (11) is introduced into the first tissue bag, and the uterus (10) is amputated using the laparoscopic surgical instrument. The first tissue bag (1) is closed around the amputated uterus, and the first tissue bag containing the amputated uterus is placed into a second tissue bag (20). A morcellating instrument is introduced into the second tissue bag (20) and the uterus is morcellated within the second tissue bag. Once the uterus (10) has been morcellated, the second tissue bag (20) containing the morcellated uterus is removed from the abdomen of the patient.