Tracking a marker in an examination subject by a magnetic resonance tomograph

The invention claimed is: 1. A method for tracking a marker in an examination subject by a magnetic resonance tomograph, wherein the magnetic resonance tomograph comprises a first image recording mode for acquiring a position of the marker and a second image recording mode for image acquisition of the examination subject, wherein the method comprises: recording an image of the examination subject with the second image recording mode of the magnetic resonance tomograph; iteratively recording data, by the magnetic resonance tomograph, to acquire the position of the marker with the first image recording mode, wherein the first image recording mode has a reduced image resolution relative to the second image recording mode, therein providing an accelerated image acquisition for acquiring the position of the marker; determining, by the magnetic resonance tomograph, the position of the marker from the data; and producing, by the magnetic resonance tomograph, a first image with a location-accurate reproduction of the marker based on the determined position, wherein a repetition rate for the recording of the data for acquiring the position of the marker with the first image recording mode is increased when the marker assumes a pre-determined position or approaches a pre-determined intervention region within the examination subject so that an instrument or device provided with the marker is configured to be positioned more precisely and more quickly within the examination subject. 2. The method of claim 1 , further comprising: correlating the image of the examination subject with the first image; and producing an additional image with an image element of the examination subject from the image of the examination subject and the location-accurate reproduction of the marker, wherein the recording of the image of the examination subject takes place depending on an event. 3. The method of claim 2 , wherein the event is an operating procedure by a user. 4. The method of claim 2 , wherein the event is a physiological reaction of the examination subject. 5. The method of claim 1 , wherein the repetition rate is determined depending on pre-determined limit values. 6. A magnetic resonance tomograph device comprising: a computer; and a computer program comprising machine code stored on a data carrier of the computer, wherein the machine code of the computer program is configured to be executed by the computer, and the execution of which causes the magnetic resonance tomograph device to: record an image of an examination subject with a second image recording mode; iteratively record data to acquire a position of a marker with a first image recording mode, wherein the first image recording mode is restricted to a two-dimensional or a one-dimensional imaging mode to provide an accelerated image acquisition mode relative to the second image recording mode; determine the position of the marker from the data; and produce a first image with a location-accurate reproduction of the marker based on the determined position, wherein a repetition rate for the recording of the data for the acquiring of the position of the marker is increased when the marker assumes a pre-determined position or approaches a pre-determined intervention region within the examination subject so that an instrument or device provided with the marker is configured to be positioned more precisely and more quickly within the examination subject. 7. A magnetic resonance tomograph for tracking a marker in an examination subject, the magnetic resonance tomograph comprising: a first image recording mode for acquiring a position of the marker; a second image recording mode for image acquisition of the examination subject; and a control system for controlling the image acquisition and recording of data for the acquiring of the position of the marker, wherein the magnetic resonance tomograph is configured to: record an image of the examination subject with the second image recording mode, iteratively record the data for acquiring the position of the marker with the first image recording mode, wherein the first image recording mode is an accelerated image recording mode having a smaller signal-to-noise ratio relative to the second image recording mode, determine the position of the marker from the data, and generate a first image with a location-accurate reproduction of the marker based on the determined position, wherein a repetition rate for the recording of the data for the acquiring of the position of the marker is increased when the marker assumes a pre-determined position or approaches a pre-determined intervention region within the examination subject so that an instrument or device provided with the marker is configured to be positioned more precisely and more quickly within the examination subject. 8. The magnetic resonance tomograph of claim 7 , wherein the magnetic resonance tomograph is configured to correlate the image of the examination subject with the first image and to produce an additional image with an image element of the examination subject from the image of the examination subject and the location-accurate reproduction of the marker. 9. The magnetic resonance tomograph of claim 8 , further comprising: an operating device, wherein the control system is configured to record the image of the examination subject and/or the data for acquiring the position of the marker depending on a signal of the operating device. 10. The magnetic resonance tomograph of claim 7 , wherein the control system is configured to determine the repetition rate depending on pre-determined limit values. 11. The magnetic resonance tomograph of claim 7 , further comprising: a sensor or camera configured to monitor physiological changes of the examination subject, wherein the control system is configured to record the first image and/or the data depending on a signal of the sensor or camera. 12. The magnetic resonance tomograph of claim 7 , wherein the magnetic resonance tomograph is configured to generate a signal when the marker assumes the pre-determined position.