The magnetic resonance imaging system has the receiver system which acquires the magnetic resonance signal. In order at some acquisition segments to acquire the magnetic resonance signal, in order to change the acquisition sequence, control system controls receiver system. The acquisition segment of the respective group includes the acquisition of the magnetic resonance signal of the RF receiver frequency zone which differs. The magnetic resonance signal is acquired from the atomic nucleus which at the acquisition segment of respective group, possesses the gyromagnetic ratio which differs and differs. Following to this invention, reconstruction of information of the different kind which is borne in the respective atomic nucleus makes possible. For example, image pickup of organism structure of the suffering inspection person it is executed on the basis of proton magnetic resonance imaging, image pickup of the contrast medium which makes the target it is actualized on the basis of 19 F magnetic resonance imaging. In addition, also position specification of invasive instrument such as catheter, is done for example on the basis of 19 F magnetic resonance imaging.磁気共鳴イメージングシステムは磁気共鳴信号を取得する受信機系を有する。磁気共鳴信号を幾つかの取得セグメントにて取得するように取得シーケンスを改めるよう、制御系が受信機系を制御する。それぞれの組の取得セグメントは、異なるRF受信機周波数帯域の磁気共鳴信号の取得を含む。それぞれの組の取得セグメントにて、異なる磁気回転比を有する異なる原子核から磁気共鳴信号が取得される。本発明に従って、それぞれの原子核に担われた異種の情報の再構成が可能にされる。例えば、被検者の生体構造の撮像が陽子磁気共鳴イメージングに基づいて実行され、ターゲットにされる造影剤の撮像が19F磁気共鳴イメージングに基づいて実現される。また、カテーテル等の侵襲的器具の位置特定も、例えば19F磁気共鳴イメージングに基づいて行われる。
