Apparatus for sterilizing an instrument channel of a surgical scoping device

The invention claimed is: 1. A sterilization apparatus for sterilizing an instrument channel of a surgical scoping device, the apparatus comprising: a sterilization instrument configured to be inserted through the instrument channel of a surgical scoping device, the sterilization instrument comprising: an elongate probe comprising a coaxial cable for conveying radiofrequency (RF) electromagnetic (EM) energy and/or microwave EM energy, and a probe tip connected at the distal end of the coaxial cable for receiving the RF and/or microwave energy, wherein the coaxial cable comprises an inner conductor, an outer conductor and a dielectric material separating the inner conductor from the outer conductor, wherein the probe tip comprises a first electrode connected to the inner conductor of the coaxial cable and a second electrode connected to the outer conductor of the coaxial cable, and wherein the first electrode and second electrode are arranged to produce an electric field from the received RF and/or microwave frequency EM energy; and a withdrawal device for withdrawing the sterilization instrument from the instrument channel at a predetermined rate. 2. A sterilization apparatus according to claim 1 , wherein the sterilization instrument is further configured to be extendable out of the instrument channel to deliver the RF EM energy and/or the microwave EM energy into biological tissue located at a distal end of the instrument channel. 3. A sterilization apparatus according to claim 1 , wherein the sterilization instrument further comprises a gas conduit for conveying gas to the probe tip, and wherein the first electrode and second electrode are arranged to produce an electric field from the received RF and/or microwave frequency EM energy across a flow path of gas received from the gas conduit to produce a thermal plasma or a non-thermal plasma. 4. A sterilization apparatus according to claim 3 , wherein the coaxial cable has a lumen extending from a proximal end to a distal end of the cable, wherein the lumen forms the gas conduit for conveying gas through the elongate probe to the probe tip. 5. A sterilization apparatus according to claim 3 , wherein the gas conduit passes through the probe tip. 6. A sterilization apparatus according to claim 3 , wherein the probe tip is a plasma applicator having an enclosed plasma generating region and an outlet for directing plasma out of the plasma generating region towards an inner surface of the instrument channel. 7. A sterilization apparatus according to claim 3 , wherein the coaxial cable comprises a layered structure comprising: an innermost insulating layer; an inner conductive layer formed on the innermost insulating layer; an outer conductive layer formed coaxially with the inner conductive layer; and a dielectric layer separating the inner conductive layer and the outer conductive layer, wherein the inner conductive layer, the outer conductive layer and the dielectric layer form a transmission line for conveying RF and/or microwave frequency energy, and wherein the innermost insulating layer is hollow, thereby providing a longitudinal channel within the coaxial cable. 8. A sterilization apparatus according to claim 7 , wherein the coaxial cable further comprises a first terminal that is electrically connected to the inner conductive layer and which extends through the innermost insulating layer into the channel; and a second terminal that is electrically connected to the outer conductive layer and which extends through the dielectric layer and innermost insulating layer into the channel; wherein the first terminal and the second terminal may be arranged to form electrical connection with the first and second electrodes on the probe tip, wherein the probe tip is insertable in or through the longitudinal channel. 9. A sterilization apparatus according to claim 7 , wherein the probe tip comprises: an extension of the innermost insulating layer of the coaxial cable; the first electrode, comprising an extension of the inner conductive layer of the coaxial cable; a dielectric cylinder placed over the inner conductive layer; and the second electrode, comprising a metal tube which is electrically connected to the outer conductive layer of the coaxial cable. 10. A sterilization apparatus according to claim 9 , wherein the dielectric cylinder comprises a number of holes in the walls of the cylinder. 11. A sterilization apparatus according to claim 7 , wherein the longitudinal channel comprises or contains the gas conduit. 12. A sterilization apparatus according to claim 1 , wherein the probe tip comprises a single piece of metallized dielectric material. 13. A sterilization apparatus according to claim 1 , wherein the probe tip has a parallel plate structure comprising: a substantially planar body of dielectric material; a first conductive layer on a first surface of the planar body as the first electrode; and a second conductive layer on a second surface of the planar body that is opposite to the first surface, as the second electrode. 14. A sterilization apparatus according to claim 1 further comprising: a container defining a sterilization enclosure for the surgical scoping device, and a plasma generating unit for creating a non-thermal plasma or a thermal plasma within the sterilization enclosure for sterilizing an exterior surface of the surgical scoping device, wherein the container includes a chamber for receiving a control head of the surgical scoping device, and wherein the plasma generating unit includes an annular body for enclosing an instrument tube of the surgical scoping device. 15. A sterilization apparatus according to claim 1 , wherein the probe tip further comprises a cleaning brush. 16. A sterilization apparatus according to claim 1 , wherein the predetermined rate is less than 10 mm per second. 17. A sterilization apparatus according to claim 1 , wherein the withdrawal device comprises: a cable coupling element operably connected to the elongate probe at a proximal end thereof; and a motor arranged to drive the cable coupling element to cause relative movement between the elongate probe and the instrument channel in a longitudinal direction. 18. A sterilization apparatus according to claim 17 , wherein the cable coupling element comprises a plurality of rollers defining a space between them for receiving the elongate probe, the rollers being arranged to grip an exterior surface of the elongate probe whereby rotation of the rollers causes longitudinal movement of the elongate probe. 19. A sterilization apparatus according to claim 18 , wherein the motor is disengagable from the cable coupling element. 20. A probe withdrawal device for moving an elongate probe through an instrument channel of a surgical scoping device, the probe withdrawal device comprising: a cable coupling element operably connected to the elongate probe at a proximal end thereof; and a motor arranged to drive the cable coupling element to cause relative movement at a predetermined rate between the elongate probe and the instrument channel in a longitudinal direction.