Vessel sealing instrument with multiple electrode configurations

1. An electrode assembly for use with an instrument for sealing and/or cutting tissue, the electrode assembly comprising:

• a pair of opposing first and second jaw members moveable from a first space position relative to one another to a second, closed position for gripping tissue, each of the jaw members including at least one electrically conductive tissue sealing element extending along a length thereof, each of the at least one electrically conductive tissue sealing elements having a U-shaped sealing section configured to contact tissue and being adapted to connect to a source of electrosurgical energy such that the at least one electrically conductive tissue sealing elements are capable of conducting electrosurgical energy through tissue held therebetween;
  
  wherein at least one of the first and second jaw members includes at least one L-shaped flange portion configured to define a central cutting zone;
  
  an insulator disposed adjacent to each of the at least one electrically conductive tissue sealing elements;
  
  the first jaw member including an electrically conductive cutting element disposed within the insulator of the first jaw member, the electrically conductive cutting element disposed in general vertical registration to the insulator on the second jaw member and within the central cutting zone;
  
  wherein the at least one L-shaped flange portion abuts the opposing insulator when the jaw members are disposed in the closed position to define a gap distance between the U-shaped sealing sections of the first and second jaw members;
  
  wherein the cutting element and the at least one electrically conductive tissue sealing elements on the first jaw member are energized to a first potential during a sealing process, wherein the first potential is different than a second potential energizing the at least one electrically conductive tissue sealing element on the second jaw member such that the electrosurgical energy can be transferred through the tissue to effect a tissue seal; and
  
  the cutting element is configured to maintain the same first potential during a cutting process and the at least one electrically conductive tissue sealing element on the first jaw member and the corresponding at least one electrically conductive tissue sealing element on the second jaw member are energized to the second potential such that the electrosurgical energy can be transferred through the tissue to effectively cut the tissue and wherein the at least one L-shaped flange portion restricts the size of the resulting cutting region around the cutting element during the cutting process.