Surgery – Diagnostic testing – Detecting nuclear – electromagnetic – or ultrasonic radiation
Reexamination Certificate
2001-06-19
2004-02-03
Van, Quang T. (Department: 3742)
Surgery
Diagnostic testing
Detecting nuclear, electromagnetic, or ultrasonic radiation
C600S411000, C324S320000, C335S301000
Reexamination Certificate
active
06687526
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method for operating a magnetic resonance apparatus having a gradient coil system and an active shim system.
2. Description of the Prior Art
Magnetic resonance imaging is a known technique for acquiring images of the inside of a body of an examination subject. In a magnetic resonance apparatus, rapidly switched gradient fields that are generated by a gradient system are superimposed on a static basic magnetic field, which is generated by a basic field magnet system. The magnetic resonance apparatus also has a high-frequency system, which emits high-frequency signals into the examination subject for triggering magnetic resonance signals, and which receives the generated magnetic resonance signals, on the basis of which image datasets are prepared.
In magnetic resonance imaging, sufficient homogeneity of the basic magnetic field constitutes a determining factor for the quality of the magnetic resonance images. Non-homogeneity of the basic magnetic field, within an imaging volume of the apparatus, causes geometric distortions of the magnetic resonance image, which is proportional to the field non-homogeneity. The field homogeneity is particularly important for rapid pulse sequences, for example in the echoplanar method.
It is known to employ shim systems for improving the basic magnetic field homogeneity within the imaging volume. A distinction is made between passive shim systems and active shim systems. In a passive shim system, a number of iron sheets or plates are attached with a suitable arrangement in the examination space of the apparatus. For this purpose, the basic magnetic field is measured within the imaging volume prior to the attachment of the iron plates. From the measured values, a calculating program determines the appropriate number and arrangement of the iron plates.
In an active shim system, shim coils that can be charged with direct current are used for homogenizing the basic magnetic field. Power packs supplying very constant and reproducibly adjustable direct currents are necessary for operating the shim coils. Among other things, an active shim system is used for precision correction when extremely high homogeneity is important, for example for correcting field distortions caused by the susceptibility of the examination subject, who is at least partially situated in the imaging volume.
For example, as is known from the German Patent 195 11 791 C1, the basic magnetic field can be described within the imaging volume with coefficients of a spherical function series expansion. It is also known from the aforementioned German Patent to correct linear non-homogeneity of the basic magnetic field, i.e., a field disturbance of first order, by charging a gradient coil with an offset current. The offset current is a constant current, which is superimposed on the gradient coil current used in a gradient sequence. In order to compensate field non-homogeneity of higher order, respective shim coils essentially compensating different ones of the coefficients are provided, corresponding to the field disturbance to be compensated. Nine shim coils generally are sufficient even high for homogeneity requirements, so that, together with the three gradient coils, twelve coefficients representing the primary disturbances to the field homogeneity can be brought close to zero.
Due to the basic magnetic field-distorting effect of the examination subject, a shim adjusting process is carried out in the course of preparing magnetic resonance images. Shim currents are determined for the individual shim coils and offset currents are determined for the gradient coils after a region of the examination subject to be imaged has been positioned in the imaging volume. Corresponding to the aforementioned German Patent, magnetic resonance signals of the examination subject are generated with different echo times for forming two three-dimensionally spatially resolved raw datasets, and the raw datasets are further processed for determining corresponding shim currents and offset currents.
German OS 42 27 162 discloses an iterative method for adjusting the shim currents and offset currents. For this purpose, proceeding from an initial adjustment of the shim currents and offset currents, magnetic resonance signals of the examination subject are generated, which are subjected to a correlation process for determining an improved adjustment of the shim and offset currents. With the thus-determined improved adjustment of the shim currents and offset currents, the aforementioned method step is repeated until a sufficient basic filed homogeneity is obtained.
U.S. Pat. No. 5,490,509, for a magnetic resonance apparatus, discloses an active shim system fashioned as an electromagnet, whereby the shape of the imaging volume of the magnetic resonance apparatus can be chronologically varied by correspondingly driving the shim system. In this way, a magnetic resonance image can be picked up from an ellipsoid-shaped imaging volume which is extended in one direction, for example for picking up a longer region of a spine, instead of being picked up from an essentially spherical imaging volume.
In the previously described shim adjusting method, which is based on a measurement and evaluation of magnetic resonance signals of an examination subject, it is particularly disadvantageous that a time duration of approximately one minute must be expected per examination. Among other things, this has a negative effect on achieving a high patient throughput for a magnetic resonance device.
SUMMARY OF THE INVENTION
An object of the invention is to provide an improved method of the aforementioned type with which, among other things, a fast shim adjusting process can be carried out.
This object is achieved in accordance with the invention by adjusting the shim currents of the active shim system and/or offset currents of the gradient coil system corresponding to at least one subject-specific parameter of an examination subject. As a result, a time-intensive measurement and evaluation of the shim currents and offset currents for adjusting the shim currents and offset currents can be foregone. Thus, a higher patient throughput can be obtained. Furthermore, an improved quality of the magnetic resonance images can be achieved in examinations, wherein—for whatever reasons—a shim adjusting process as described in the prior art has not been carried out by using the inventive method, without the shim adjusting process adding any significant time delay.
In an embodiment, the subject-specific parameter is the mass, length, gender and/or age of the examination subject. Mass, length, gender and age of the examination subject to a large extent determine the examination subject-dependent field-distorting effect.
In another embodiment, shim currents and/or offset currents are adjusted dependent on at least one execution-specific parameter of an examination. For this purpose, the execution-specific parameter is an indication of an area of the examination subject to be imaged and/or the orientation of the area with respect to the magnetic resonance apparatus. For this purpose, the indication and/or orientation of the area to be imaged, in an embodiment, is determined from a travel or: movement position of a movable support device of the magnetic resonance apparatus, the type of supporting arrangement of the examination subject on the support device and/or from a use of a local reception antenna. For adjusting the shim currents and offset currents, it is important to know the area to be imaged within an examination subject, this area being situated in the imaging volume of the apparatus. For a patient, the use of a local head antenna, for example, indicates that the area of the patient to be imaged is the head. By knowing the movement position of the support device, the area of the patient to be imaged can also be determined from the support type of the patient on the support device, such as lying on the stomach or back, with the head or legs in front.
In a furthe
Brand Martin
Kuth Rainer
Schiff & Hardin & Waite
Siemens Aktiengesselschaft
Van Quang T.
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