Vessel sealer and divider for use with small trocars and cannulas

What is claimed is: 1. An endoscopic bipolar forceps, comprising: a housing; a shaft extending distally from the housing and defining a longitudinal axis therethrough; an end effector assembly disposed at a distal end of the shaft, the end effector assembly including a movable jaw member and a fixed jaw member, the movable jaw member pivotable relative to the fixed jaw member about a pivot pin, the movable jaw member including a pivot flange comprising a protrusion that extends therefrom; a movable handle coupled to the housing; and a tubular reciprocating sleeve operably coupled to the movable handle and configured to pivot the movable jaw member from a first position wherein the movable jaw member is disposed in spaced relation relative to the fixed jaw member to a second position wherein the movable jaw member is closer to the fixed jaw member, the tubular reciprocating sleeve including an aperture at a distal end thereof defined by an edge surrounding the aperture, the aperture configured to receive the protrusion of the pivot flange of the movable jaw member such that proximal translation of the tubular reciprocating sleeve relative to the longitudinal axis of the shaft in response to proximal movement of the movable handle relative to the housing urges the edge into engagement with the protrusion of the pivot flange of the movable jaw member to pivot the movable jaw member from the first position to the second position, wherein each of the movable and fixed jaw members is adapted to connect to a source of electrosurgical energy such that the movable and fixed jaw members are capable of conducting energy through tissue grasped therebetween. 2. The endoscopic bipolar forceps according to claim 1 , wherein the aperture is offset from the pivot pin. 3. The endoscopic bipolar forceps according to claim 1 , wherein the movable handle includes a flange portion and a finger loop, the flange portion coupled to the housing above the longitudinal axis and the finger loop extending from the housing below the longitudinal axis. 4. The endoscopic bipolar forceps according to claim 1 , wherein the distal end of the tubular reciprocating sleeve defines a scoop-like support member for supporting a proximal end of the fixed jaw member. 5. The endoscopic bipolar forceps according to claim 4 , wherein the scoop-like support member includes the aperture. 6. The endoscopic bipolar forceps according to claim 1 , wherein the tubular reciprocating sleeve is electrically coupled to the fixed jaw member. 7. The endoscopic bipolar forceps according to claim 1 , further including a cable lead that electrically couples to the movable jaw member. 8. The endoscopic bipolar forceps according to claim 7 , wherein the movable jaw member defines a channel configured to receive a portion of the cable lead. 9. The endoscopic forceps according to claim 1 , further including a selectively advanceable knife configured to cut the tissue grasped between the movable and fixed jaw members. 10. The endoscopic forceps according to claim 9 , further including a finger actuator operably coupled to the knife, the finger actuator selectively actuatable to advance the knife between the movable and fixed jaw members to cut the tissue grasped therebetween. 11. The endoscopic forceps according to claim 1 , further including a rotating assembly operable to rotate the movable and fixed jaw members about the longitudinal axis defined through the shaft. 12. The endoscopic bipolar forceps according to claim 1 , further including a hand switch disposed on the housing and operable to allow a user to selectively supply bipolar energy to the movable and fixed jaw members. 13. The endoscopic bipolar forceps according to claim 12 , wherein the hand switch is disposed proximal to the movable handle. 14. The endoscopic bipolar forceps according to claim 1 , wherein at least one of the movable jaw member or the fixed jaw member includes at least one stop member configured to regulate a distance between the movable and fixed jaw members. 15. The endoscopic bipolar forceps according to claim 1 , wherein distal translation of the tubular reciprocating sleeve relative to the longitudinal axis of the shaft in response to distal movement of the movable handle relative to the housing urges the edge into engagement with the protrusion of the pivot flange of the movable jaw member to pivot the movable jaw member from the second position to the first position. 16. An endoscopic forceps, comprising: a housing; a shaft extending distally from the housing and defining a longitudinal axis therethrough; an end effector assembly disposed at a distal end of the shaft, the end effector assembly including a movable jaw member and a fixed jaw member, the movable jaw member movable relative to the fixed jaw member and including a pivot flange that extends therefrom; a movable handle coupled to the housing; and a tubular reciprocating sleeve operably coupled to the movable handle and configured to move the movable jaw member relative to the fixed jaw member from a first position wherein the movable jaw member is disposed in spaced relation relative to the fixed jaw member to a second position wherein the movable jaw member is closer to the fixed jaw member, the tubular reciprocating sleeve including a scoop-like support member at a distal end thereof, the scoop-like support member configured to support a proximal end of the fixed jaw member, the scoop-like support member including an aperture defined by an edge surrounding the aperture, the aperture configured to receive a portion of the pivot flange of the movable jaw member such that proximal translation of the tubular reciprocating sleeve relative to the longitudinal axis of the shaft in response to proximal movement of the movable handle relative to the housing urges the edge into engagement with the portion of the pivot flange of the movable jaw member to move the movable jaw member relative to the fixed jaw member from the first position to the second position. 17. The endoscopic forceps according to claim 16 , wherein the movable jaw member is pivotable relative to the shaft about a pivot pin, and wherein the aperture is offset from the pivot pin. 18. The endoscopic forceps according to claim 16 , wherein the tubular reciprocating sleeve is electrically coupled to the fixed jaw member and adapted to connect the fixed jaw member to a source of energy. 19. The endoscopic forceps according to claim 16 , further including a cable lead extending through the shaft, the cable lead electrically coupled to the movable jaw member and adapted to connect the movable jaw member to a source of energy. 20. The endoscopic forceps according to claim 19 , wherein the movable jaw member defines a guide channel configured to receive a portion of the cable lead. 21. The endoscopic forceps according to claim 16 , further including: a selectively advanceable knife configured to cut tissue grasped between the movable and fixed jaw members; and a finger actuator operably coupled to the knife, the finger actuator selectively actuatable to advance the knife between the movable and fixed jaw members to cut the tissue grasped therebetween. 22. The endoscopic forceps according to claim 16 , wherein distal translation of the tubular reciprocating sleeve relative to the longitudinal axis of the shaft in response to distal movement of the movable handle relative to the housing urges the edge into engagement with the portion of the pi