Active position marker system for use in an MRI apparatus

The invention claimed is: 1. An active position marker, comprising: a local RF receive coil for receiving local MR signals, which are excited in a local volume, which is surrounded by and/or surrounds the local RF receive coil; a parametric amplifier provided in the active position marker, the parametric amplifier being configured to amplify the received local MR signal and for upconverting its frequency via a pump frequency signal into at least one upper and/or at least one lower sideband frequency signal; an antenna, provided in the active position marker for wirelessly transmitting, or a cable interface for wire-bound transmitting, the at least one upper and/or at least one lower sideband frequency signal of the frequency-upconverted local MR signal; and a filter configured to bandpass filter the received local MR signal, the filter being connected between the local RF receive coil and the parametric amplifier. 2. The active position marker according to claim 1 , wherein a local volume of the active position marker comprises a marker material. 3. The active position marker according to claim 1 , further comprising a matching network is connected between the local RF receive coil and the parametric amplifier, the matching network being configured to match an impedance of the parametric amplifier to an impedance of the local RF receive coil. 4. The active position marker according to claim 3 , wherein the match network is a first matching network, and the active position marker further comprises a second matching network connected between the parametric amplifier and the antenna, or the cable interface, respectively, for impedance-matching the amplifier to the antenna, or to the cable interface, respectively. 5. The active position marker according to claim 1 , wherein the filter is a first filter, and the active position marker further comprises second filter connected between the parametric amplifier and the antenna, or the cable interface, respectively, for bandpass filtering the at least one upper sideband signal and/or the at least one lower sideband signal of the frequency-upconverted MR signal. 6. A medical device, comprising an active position marker according to claim 1 , the medical device being an interventional or non-interventional instrument. 7. The medical device according to claim 6 , wherein the medical device is one of: a pacemaker, a catheter, a surgical device, a biopsy needle, a pointer, an RF transmit and/or receive surface coil, an RF pad coil, an RF head coil, or a stereotactic frame. 8. An active position marker system comprising at least one active position marker according to claim 1 , and a remote transceiver unit. 9. The active position marker system according to claim 8 , comprising a plurality of active position markers which are each operated by means of each one of a plurality of pump signals each having one of different pump frequencies, and/or which transmit each one of a plurality of upper and/or lower sideband frequency signals each having one of different upper and/or lower sideband frequencies, wherein the remote transceiver unit comprises a look-up table for assigning each active position marker a unique identification on a basis of a frequency of the received frequency-upconverted MR signal, wherein the unique identification is fed together with an downconverted MR signal to an image processing unit of an MR imaging system. 10. The active position marker according to claim 1 , wherein the local RF receive coil encloses or is surrounded by the local volume. 11. An active position marker, comprising: a local RF receive coil for receiving local MR signals, which are excited in a local volume, which is surrounded by and/or surrounds the local RF receive coil; a parametric amplifier provided in the active position marker, the parametric amplifier being configured to amplify the received local MR signal and for upconverting its frequency via a pump frequency signal into at least one upper and/or at least one lower sideband frequency signal; and an antenna, provided in the active position marker for wirelessly transmitting, or a cable interface for wire-bound transmitting, the at least one upper and/or at least one lower sideband frequency signal of the frequency-upconverted local MR signal. 12. The active position marker according to claim 11 , wherein a local volume of the active position marker comprises a marker material. 13. The active position marker according to claim 11 , further comprising a matching network is connected between the local RF receive coil and the parametric amplifier, the matching network being configured to match an impedance of the parametric amplifier to an impedance of the local RF receive coil. 14. The active position marker according to claim 13 , wherein the matching network is a first matching network, and the active position marker further comprises a second matching network connected between the parametric amplifier and the antenna, or the cable interface, respectively, for impedance-matching the amplifier to the antenna, or to the cable interface, respectively. 15. A medical device, comprising an active position marker according to claim 11 , the medical device being an interventional or non-interventional instrument. 16. The medical device according to claim 15 , wherein the medical device is one of: a pacemaker, a catheter, a surgical device, a biopsy needle, a pointer, an RF transmit and/or receive surface coil, an RF pad coil, an RF head coil, or a stereotactic frame.