Surgical instrument and method

What is claimed is: 1. A surgical instrument comprising: an elongated body having a distal end, a proximal end, and a bore extending between the distal and proximal ends, an external surface of the elongated body comprising an electrically insulative material; a surgical device including a tissue contact region comprising electrically conductive material, the surgical device is mounted on the distal end of the body; a handle coupled to the proximal end of the elongated body, the handle including a proximal end, a distal end, and a manual control moveably mounted thereon, the handle comprising a housing; a linkage disposed within the bore, wherein the linkage couples the manual control to the surgical device, and is configured for actuating movement of the surgical device in response to manipulation of the manual control; and a contact region of electrically conductive material disposed at the handle and physically accessible to a distal electrode region of a hand-held energy delivery device at a location away from the manual control and on the housing, wherein the contact region is electrically connected to the surgical device and capable of establishing electrical conductivity with the electrically conductive material of the tissue contact region through an electrically conductive path passing at least partially within a region internal to the external surface of the elongated body; wherein in a first mode of operation, the electrically conductive material of the tissue contact region of the surgical device is configured to provide heat, and in a second mode of operation, the electrically conductive material of the tissue contact region of the surgical device is configured to provide RF energy when RF energy is directly applied to the contact region via the distal electrode region of the hand-held energy delivery device. 2. The surgical instrument of claim 1 , wherein the electrically insulative material of the external surface of the elongated body extends between the distal and proximal ends of the elongated body. 3. The surgical instrument of claim 1 , wherein the linkage is electrically conductive. 4. The surgical instrument of claim 1 , wherein the elongated body is flexible. 5. The surgical instrument of claim 1 , wherein the surgical device includes a pair of jaws that are configured for relative movement between an open position and a closed position. 6. The surgical instrument of claim 5 , wherein the pair of jaws is configured to sever tissue. 7. The surgical instrument of claim 6 , wherein the tissue comprises vessel tissue. 8. The surgical instrument of claim 5 , wherein the electrically conductive material of the tissue contact region is configured for providing the heat in response to an applied current. 9. The surgical instrument of claim 1 , wherein the handle includes an opening for allowing access to the contact region by the distal electrode region of the hand-held energy delivery device, wherein the opening is at a location remote from the manual control. 10. The surgical instrument of claim 1 , wherein the contact region is in a form of a conductive ring. 11. The surgical instrument of claim 1 , wherein the contact region includes a connector within the handle that is accessible through a connection port at the handle. 12. The surgical instrument of claim 1 , wherein the contact region is located on an external surface of the handle's housing at a location proximal to the elongated body. 13. The surgical instrument of claim 1 , wherein the contact region is configured as a port. 14. A surgical instrument comprising: an elongated body having a distal end, a proximal end, and a sidewall extending between the distal and proximal ends, an external surface of the sidewall comprised of an electrically insulative material; a pair of jaws for severing a vessel, the pair of jaws mounted on the distal end of the body, wherein at least one of the jaws has an electrically conductive material; a handle having a distal end and a proximal end, and coupled to the proximal end of the elongated body, the handle encasing a housing interior cavity; a contact region located at the handle at a location distal to the handle's proximal end and external to the housing interior cavity, the contact region configured for establishing direct physical contact with a distal electrode tip region of a hand-held energy delivery device; wherein in a first mode of operation, the electrically conductive material is for receiving energy from a first energy source through a wired connection with the first energy source, and in a second mode of operation, the electrically conductive material is for receiving energy from a second energy source supplied by the hand-held energy delivery device when the distal electrode tip region of the hand-held energy delivery device is in direct physical contact with the contact region. 15. The surgical instrument of claim 14 , further comprising a button at the handle, wherein in the first mode of operation, the button is configured for electrically connecting the electrically conductive material to the first energy source, and preventing the electrically conductive material from electrically connecting to the second energy source. 16. The surgical instrument of claim 15 , wherein in the second mode of operation, the button is configured for preventing the electrically conductive material from electrically connecting to the first energy source. 17. The surgical instrument of claim 14 , wherein the electrically conductive material is configured for providing heat in response to an applied current from the first energy source. 18. The surgical instrument of claim 14 , wherein the electrically conductive material is configured for providing RF energy in response to the contact region at the handle being in contact with the distal tip region of the hand-held energy delivery device. 19. The surgical instrument of claim 18 , wherein the contact region is recessed within an external surface of the handle for allowing access to the contact region by the hand-held energy delivery device. 20. The surgical instrument of claim 18 , wherein the contact region extends in a circumferential direction to be accessible to the hand-held energy delivery device from multiple sides of the surgical instrument. 21. The surgical instrument of claim 14 , wherein the handle further includes a button for electrically connecting the contact region to a RF source. 22. The surgical instrument of claim 21 , wherein the handle further includes an additional button for closing the jaws and for activating the electrically conductive material to deliver heat. 23. The surgical instrument of claim 14 , wherein the electrically conductive material is a part of a heating element disposed on a jaw-facing surface of one of the jaws. 24. The surgical instrument of claim 23 , wherein one edge of the heating element is exposed along a longitudinal edge of one of the jaws when the jaws are in a closed configuration. 25. The surgical instrument of claim 14 , wherein the contact region is located on an external surface of the handle proximal to the elongated body. 26. A surgical instrument useful for cutting and sealing tissues of a vessel system wherein the vessel system comprises one or more side-branch vessel portions extending from a main-branch vessel portion, the surgical instrument comprising: an elongated body having a