Vessel sealing instrument

What is claimed is: 1. A forceps, comprising: a first shaft having a first jaw member at a distal end thereof; a second shaft having a second jaw member at a distal end thereof, each of the first and second jaw members including an electrically conductive sealing surface, the first and second shafts pivotally coupled to each other about a pivot such that the jaw members are movable between an open position and a closed position; a trigger disposed on the first shaft; a knife operatively coupled to the trigger such that actuation of the trigger translates the knife distally through the pivot and into a knife channel extending at least partially through at least one of the jaw members; a first lead channel defined in the first jaw member and a second lead channel defined in the second jaw member, the first lead channel disposed in lateral spaced relation to the pivot and extending between a proximal end that is continuous with an elongated raceway defined in the first jaw member and a distal end disposed distal to the pivot, the elongated raceway having a narrowed portion and a broadened portion; a first electrical lead routed through the narrowed portion of the elongated raceway and through the first lead channel to electrically couple to the electrically conductive sealing surface of the first jaw member; a second electrical lead routed at least partially through the elongated raceway, extending from the elongated raceway proximal to the pivot toward the second jaw member, and routed through the second lead channel to electrically couple to the electrically conductive sealing surface of the second jaw member; and a switch disposed on one of the first or second shafts and electrically coupled to the first electrical lead, the switch configured to be depressed when the jaw members are in the closed position to supply electrosurgical energy from an electrosurgical energy source to the electrically conductive sealing surfaces. 2. The forceps according to claim 1 , wherein each of the electrically conductive sealing surfaces includes a junction configured to electrically connect to the corresponding first and second electrical leads. 3. The forceps according to claim 1 , wherein the first electrical lead is interconnected between the switch and the electrically conductive sealing surface of the first jaw member. 4. The forceps according to claim 1 , wherein the first electrical lead is configured to provide a first electrical potential of electrosurgical energy to the electrically conductive sealing surface of the first jaw member and the second electrical lead is configured to provide a second electrical potential of electrosurgical energy to the electrically conductive sealing surface of the second jaw member. 5. The forceps according to claim 1 , wherein the pivot is disposed distal to the elongated raceway. 6. The forceps according to claim 1 , wherein the proximal end of the first lead channel is continuous with the narrowed portion of the raceway. 7. A forceps, comprising: a first shaft having a first jaw member at a distal end thereof; a second shaft having a second jaw member at a distal end thereof, each of the first and second jaw members including an electrically conductive sealing surface, the first and second shafts pivotally coupled to each other about a pivot such that the jaw members are movable between an open position and a closed position; a first lead channel defined in the first jaw member and a second lead channel defined in the second jaw member, the first lead channel disposed in lateral spaced relation to the pivot and having a proximal end that is continuous with an elongated raceway defined in the first jaw member; a first electrical lead routed through at least a portion of the elongated raceway and through the first lead channel to electrically couple to the electrically conductive sealing surface of the first jaw member; a second electrical lead routed through at least a portion of the elongated raceway, extending from the elongated raceway proximal to the pivot toward the second jaw member, and routed through the second lead channel to electrically couple to the electrically conductive sealing surface of the second jaw member; and a switch disposed on one of the first or second shafts and electrically coupled to the first electrical lead, the switch configured to be depressed when the jaw members are in the closed position to supply electrosurgical energy from an electrosurgical energy source to the electrically conductive sealing surfaces. 8. The forceps according to claim 7 , wherein the elongated raceway includes a narrowed portion and a broadened portion, the first electrical lead routed through the narrowed portion of the elongated raceway. 9. The forceps according to claim 7 , further comprising: a trigger disposed on the first shaft; and a knife operatively coupled to the trigger such that actuation of the trigger translates the knife distally through the pivot and into a knife channel extending at least partially through at least one of the jaw members. 10. The forceps according to claim 7 , wherein the proximal end of the first lead channel is continuous with a narrowed portion of the elongated raceway.