摘要:
A method for planning a combined examination of an examination object using two imaging modalities is disclosed, with measurements being taken in at least two regions of the examination object. In at least one embodiment, the method includes planning of at least one measuring protocol of the first modality, which includes at least one measurement in a first of the regions and at least one measurement in a second of the regions; planning of at least one measuring protocol of the second modality, which comprises at least one measurement in the first region; and automatic production of a combined measuring sequence by arranging the measurements in such a manner that carrying out the measuring sequence taking into account modality preparations to be carried out between measurements takes as little time as possible.In at least one embodiment, the automated production of the actual measuring sequence allows the measuring protocols of the individual modalities to be planned in a simple manner for a number of regions. The focus can therefore be on diagnostic questions at the measurement planning stage.
摘要:
A method for planning a combined examination of an examination object using two imaging modalities is disclosed, with measurements being taken in at least two regions of the examination object. In at least one embodiment, the method includes planning of at least one measuring protocol of the first modality, which includes at least one measurement in a first of the regions and at least one measurement in a second of the regions; planning of at least one measuring protocol of the second modality, which comprises at least one measurement in the first region; and automatic production of a combined measuring sequence by arranging the measurements in such a manner that carrying out the measuring sequence taking into account modality preparations to be carried out between measurements takes as little time as possible.In at least one embodiment, the automated production of the actual measuring sequence allows the measuring protocols of the individual modalities to be planned in a simple manner for a number of regions. The focus can therefore be on diagnostic questions at the measurement planning stage.
摘要:
A method for verifying at least one default value for a magnetic resonance examination, a verifying unit, a magnetic resonance device and a computer program product are provided. According to the method, at least one default value for an electromagnetic property and a sequence segment are sent to a verifying unit. The verifying unit uses the sequence segment to determine at least one electromagnetic property. The at least one default value is verified by the verifying unit with respect to the at least one electromagnetic property.
摘要:
A method for verifying at least one default value for a magnetic resonance examination, a verifying unit, a magnetic resonance device and a computer program product are provided. According to the method, at least one default value for an electromagnetic property and a sequence segment are sent to a verifying unit. The verifying unit uses the sequence segment to determine at least one electromagnetic property. The at least one default value is verified by the verifying unit with respect to the at least one electromagnetic property.
摘要:
A method for monitoring a temporal change in a magnetic field in a magnetic resonance device, as well as an evaluation unit, a magnetic resonance device, and a computer program product for performing the method are provided. The method provides that a position-dependent magnetic field distribution that is produced by the plurality of gradient coils is provided with a plurality of monitoring points. In addition, time-dependent gradient values of the plurality of gradient coils are ascertained. Based on position-dependent magnetic field distribution and the time-dependent gradient values, the temporal change in the magnetic field is ascertained. The temporal change in the magnetic field is monitored by comparing the temporal change in the magnetic field with at least one limit value.
摘要:
A method for operating a magnetic resonance apparatus by a safety unit, taking into account persons fitted with an implant, a safety unit, a safety system, a magnetic resonance apparatus, and a computer program product are provided. The magnetic resonance apparatus includes a first part and a second part. The first part is operated separately from the second part and includes the safety unit. During an examination of a person fitted with an implant, the safety unit checks that the magnetic resonance apparatus, in a restricted operating mode, is complying with implant-conformant limit values.
摘要:
A method for monitoring a temporal change in a magnetic field in a magnetic resonance device, as well as an evaluation unit, a magnetic resonance device, and a computer program product for performing the method are provided. The method provides that a position-dependent magnetic field distribution that is produced by the plurality of gradient coils is provided with a plurality of monitoring points. In addition, time-dependent gradient values of the plurality of gradient coils are ascertained. Based on position-dependent magnetic field distribution and the time-dependent gradient values, the temporal change in the magnetic field is ascertained. The temporal change in the magnetic field is monitored by comparing the temporal change in the magnetic field with at least one limit value.
摘要:
A method for operating a magnetic resonance apparatus by a safety unit, taking into account persons fitted with an implant, a safety unit, a safety system, a magnetic resonance apparatus, and a computer program product are provided. The magnetic resonance apparatus includes a first part and a second part. The first part is operated separately from the second part and includes the safety unit. During an examination of a person fitted with an implant, the safety unit checks that the magnetic resonance apparatus, in a restricted operating mode, is complying with implant-conformant limit values.
摘要:
In a magnetic resonance system according to a measurement protocol defined in advance and comprising multiple acquisition parameters, wherein given a non-compliance with at least one limit value (which is automatically established before the beginning of a subject-specific measurement data acquisition)—in particular a SAR limit value and/or a magneto-stimulation limit value and/or a hardware limit value—by the measurement protocol, an adaptation of at least one acquisition parameter ensues using at least one (in particular user-defined) protocol-specific rule for compliance with the limit value, and the measurement data acquisition ensues automatically according to the adapted acquisition parameters.