Electrosurgical apparatus for delivering RF and/or microwave energy into biological tissue

The invention claimed is: 1. An interface joint for interconnecting an electrosurgical generator and an electrosurgical instrument, the interface joint comprising: a housing made of electrically insulating material, the housing having: a first inlet for receiving radiofrequency (RF) electromagnetic (EM) energy or microwave frequency EM energy from the electrosurgical generator, a second inlet for receiving fluid, and an outlet; a single cable assembly for connecting the outlet to the electrosurgical instrument, the single cable assembly comprising a flexible sleeve which defines a fluid flow path that is in fluid communication with the second inlet, and which conveys a coaxial cable that is connected to the first inlet; and a slidable trigger on a surface of the housing, the slidable trigger being attached to a push rod that extends out of the housing through the outlet. 2. An interface joint according to claim 1 , wherein the housing includes an internal watertight branched passageway which defines a fluid flow path between the second inlet and the outlet, and wherein the internal watertight branched passageway has a first port adjacent to the first inlet for admitting the coaxial cable. 3. An interface joint according to claim 2 , wherein the first port comprises a sealing bung which defines a watertight passage for the coaxial cable. 4. An interface joint according to claim 2 , wherein the internal watertight branched passageway is formed from a pair of Y-shaped conduits. 5. An interface joint according to claim 1 , wherein the housing includes an internal watertight branched passageway which defines a fluid flow path between the second inlet and the outlet, and wherein the internal watertight branched passageway has a first port adjacent to the first inlet for admitting the coaxial cable and a second port adjacent the slidable trigger for admitting the push rod. 6. An interface joint according to claim 5 , wherein the second port comprises a sealing bung which defines a watertight passage for the push rod. 7. An interface joint according to claim 5 , wherein a distal end of the push rod is connected to a proximal end of a needle ferrule, which has an internal volume in fluid communication with the fluid flow path through the flexible sleeve, and wherein a needle is mounted in a distal end of the needle ferrule in fluid communication with the internal volume. 8. An interface joint according to claim 1 , wherein the cable assembly has an outer diameter in the range 1.2 mm to 9 mm. 9. An interface joint according to claim 1 , wherein the flexible sleeve has spiral wound reinforcement or spiral wound multiple cross braiding therein to assist in the transfer of torque. 10. An interface joint according to claim 9 , wherein the spiral wound reinforcement or spiral wound multiple cross braiding has a variable pitch. 11. An interface joint according to claim 1 , wherein the housing comprises a strain relief element mounted in the outlet and surrounding the flexible sleeve. 12. An interface joint according to claim 1 having a second coaxial cable attached to the first inlet via an interface connection, wherein the interface connection is arranged to permit relative rotation of the interface joint relative to the second coaxial cable. 13. An interface joint according to claim 1 , wherein the flexible sleeve comprises a multi lumen tube. 14. An interface joint according to claim 13 , wherein the flexible sleeve includes an extruded separator element inserted inside a single lumen tube, the extruded separator element including a plurality of through channels. 15. An interface joint according to claim 1 , wherein the housing is an elongate capsule sized to fit in an operator's hand.