Readjustable polyaxial pedicle screw

The invention claimed is: 1. A polyaxial pedicle screw comprising a threaded shaft portion for anchoring the pedicle screw in a vertebra, said pedicle screw having one axial end provided with a shaft head which is coupled to a mounting sleeve for a longitudinal beam in a rotatable and/or pivotable manner, comprising a fixing device for the selective positional fixation of the mounting sleeve with respect to the shaft portion, the fixing device comprising a locking element for exerting a holding force on the mounting sleeve as well as a separate counterforce part counteracting the holding force of the locking element and being designed and/or retained in such a manner that the holding force of the locking element can be selectively released by means of the counterforce part, wherein the counterforce part is designed as a manually destroyable disposable part and/or is provided with an opening mechanism by means of which the counterforce part can be altered in terms of its dimensions and/or is movably supported such that it can be moved from a functional position to a non-functional position. 2. The polyaxial pedicle screw according to claim 1 , wherein the locking element is provided for a positional fixation of the adjusted polyaxial support if the counterforce part is in a force-receiving state or in a functional position, whereas the counterforce part is provided for neutralizing or reducing the function of the locking element if the latter is already in a state of fixation. 3. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part acts on the fixation mechanism of the fixing device for the positional fixation of the mounting sleeve with respect to the shaft portion and/or on the fixation mechanism of the fixing device for the positional fixation of the mounting sleeve with respect to a longitudinal beam. 4. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part is designed as a tensioning or clamping device which is selectively able to maintain the shape and/or the function of the mounting sleeve and/or of a punch which is supported in the mounting sleeve for transmitting a force from the locking element to the shaft head. 5. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part is a tensioning ring which is guided outside the mounting sleeve and/or a punch supported in the mounting sleeve so as to be axially movable therein and intended for transmitting a force between the locking element and the shaft head and is provided for applying a radially inward counterforce on the mounting sleeve and/or the punch depending on the adjusted shape and/or position. 6. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part is a threaded sleeve for receiving the locking element, which is selectively detachably latched in place in the mounting sleeve by a bayonet or clip lock, in order to transmit the preload force of the locking element arranged in the threaded sleeve to the mounting sleeve or to selectively release it. 7. The polyaxial pedicle screw according to claim 5 , wherein the ring is supported so as to be axially shiftable on the outer face of the mounting sleeve, so that it can be selectively moved to the functional or non-functional position. 8. The polyaxial pedicle screw according to claim 5 , wherein the ring is provided with an opening or width adjustment mechanism to selectively move the ring internally to the functional or non-functional position without axially shifting it. 9. The polyaxial pedicle screw according to claim 5 , wherein the ring is made of a material which can be manually destroyed with a predetermined expenditure of force below the maximum load of the shaft portion or is provided with a manually activatable predetermined breaking point. 10. The polyaxial pedicle screw according to claim 5 , wherein the mounting sleeve and/or the punch, at least in the area of the counterforce part, is in the form of the tensioning and/or clamping device in the form of the tensioning ring, and is/are provided with resilient features which act at least in the radial direction. 11. The polyaxial pedicle screw according to claim 10 , wherein the mounting sleeve and/or the punch is/are realized with longitudinal slots, producing lugs which can be elastically bent radially towards outside and are selectively kept together in the radial direction by the counterforce part, or in that the material of the mounting sleeve and/or of the punch is radially resiliently expandable at least in sections. 12. The polyaxial pedicle screw according to claim 5 , wherein two axially spaced latching positions are realized on the mounting sleeve and/or on the punch in order to mark the functional or non-functional position in case the tensioning ring is axially shiftable. 13. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part can be moved manually to a first, active position in which the locking element is able to develop its effect and to a second, inactive position, in which the locking element is not able to develop any effect. 14. The polyaxial pedicle screw according to claim 1 , wherein the counterforce part receives radial forces in its first, active position so as to counteract a radial deformation of the mounting sleeve, and in its second, inactive position it permits a radial deformation of the mounting sleeve at a defined axial portion. 15. A vertebral body stabilizing system consisting of at least one longitudinal beam for the longitudinal interconnection of two vertebral bodies, and a number of polyaxial pedicle screws according to claim 1 .