MAGNETIC RESONANCE METHOD AND APPARATUS TO ACQUIRE MULTIPLE IMAGE DATA SETS FROM A SUBJECT
First Claim
1. A magnetic resonance method for acquiring a first image data set and a second image data set from an examination subject, comprising the steps of:
- placing an examination subject in a magnetic resonance data acquisition unit and, from said magnetic resonance data acquisition unit, radiating a plurality of excitation pulses into the examination subject;
operating said magnetic resonance data acquisition unit to generate, after each excitation pulse a first echo signal after a first echo time TE1 and a second echo signal after a second echo time TE2, with TE2 being longer than TE1;
detecting said first echo signal and entering said first echo signal in a first raw magnetic resonance data set, and detecting said second echo signal and entering said second echo signal in a second raw magnetic resonance data set;
in a processor, acquiring a first image data set from the first raw magnetic resonance data set based on magnitude information contained in the first raw magnetic resonance data set;
in said processor, acquiring a second image data set from the second raw magnetic resonance data set based on phase information contained in the second raw magnetic resonance data set; and
storing said first and second image data sets in at least one memory device in a form allowing access to said first and second image data sets.
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Accused Products
Abstract
In a magnetic resonance (MR) method and apparatus for the acquisition of a first image data set and a second image data set of an examination subject, a series of excitation pulses is radiated into the examination subject, and after each excitation pulse, a first echo signal is detected after a first echo time TE1 and a second echo signal is detected after a second echo time TE2, with TE2 greater than TE1, and the first echo signal is entered in a first raw MR data set and the second echo signal is entered in a second raw MR data set. A first image data set is acquired from the first MR data set on the basis of magnitude information contained in the first MR data set. A second image data set is acquired from the second MR data set on the basis of phase information contained in the second MR data set. The first and second image data sets are stored on at least one memory device.
This manner of data acquisition and processing delivers results that typically are obtained from two different data acquisition and processing procedures, one for each desired image data set.
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Citations
10 Claims
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1. A magnetic resonance method for acquiring a first image data set and a second image data set from an examination subject, comprising the steps of:
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placing an examination subject in a magnetic resonance data acquisition unit and, from said magnetic resonance data acquisition unit, radiating a plurality of excitation pulses into the examination subject; operating said magnetic resonance data acquisition unit to generate, after each excitation pulse a first echo signal after a first echo time TE1 and a second echo signal after a second echo time TE2, with TE2 being longer than TE1; detecting said first echo signal and entering said first echo signal in a first raw magnetic resonance data set, and detecting said second echo signal and entering said second echo signal in a second raw magnetic resonance data set; in a processor, acquiring a first image data set from the first raw magnetic resonance data set based on magnitude information contained in the first raw magnetic resonance data set; in said processor, acquiring a second image data set from the second raw magnetic resonance data set based on phase information contained in the second raw magnetic resonance data set; and storing said first and second image data sets in at least one memory device in a form allowing access to said first and second image data sets. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A magnetic resonance apparatus comprising:
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a magnetic resonance data acquisition unit comprising a basic field magnet that generates a basic magnetic field in an examination volume of the data acquisition unit; gradient coils in said data acquisition unit that generate gradient fields in the examination volume; a gradient coil unit that controls the gradient coils to generate said gradient fields; a radio-frequency transmitter that generates radio-frequency signals; a radio-frequency antenna system connected to said radio-frequency transmitter that radiates said radio-frequency signals into an examination subject located in said examination volume of said data acquisition unit, and that acquire radio-frequency signals from the examination subject that result from the radiated radio-frequency signals; a receiver unit connected to said antenna system that receives the detection radio-frequency signals; a control device that operates said gradient coil control unit, said receiver unit and said radio-frequency transmitter, said control unit being configured to cause said radio-frequency transmitter and said antenna system to radiate a plurality of excitation pulses into the examination subject, and to operate said gradient control unit to generate, after each excitation pulse, a first echo signal after a first echo time TE1, and a second echo signal after second echo time TE2, with TE2 being longer than TE1, and to operate said radio-frequency antenna system and said receiver unit to detect the first echo signal and to enter the first echo signal in a first raw magnetic resonance data set, and to detect the second echo signal and to enter the second echo signal into a second raw magnetic resonance data set; and a computer supplied with said first and second raw magnetic resonance data sets, said computer being configured to acquire a first image data from the first raw magnetic resonance data set based on magnitude information contained in the first raw magnetic resonance data set, and to acquire a second image data set from the second raw magnetic resonance data set based on phase information contained in the second raw magnetic resonance data set; and a memory connected to said computer in which said computer stores said first and second image data sets.
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10. A non-transitory computer-readable medium encoded with programming instructions, said medium being loaded into a computerized operating and data evaluation system of a magnetic resonance apparatus, and said programming instructions causing said computerized operating and data evaluation system to:
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radiate a plurality of excitation pulses into an examination subject in a magnetic resonance data acquisition of said magnetic resonance apparatus; operate said magnetic resonance data acquisition unit to generate, after each excitation pulse a first echo signal after a first echo time TE1 and a second echo signal after a second echo time TE2, with TE2 being longer than TE1; detect said first echo signal and entering said first echo signal in a first raw magnetic resonance data set, and detect said second echo signal and entering said second echo signal in a second raw magnetic resonance data set; acquire a first image data set from the first raw magnetic resonance data set based on magnitude information contained in the first raw magnetic resonance data set; acquire a second image data set from the second raw magnetic resonance data set based on phase information contained in the second raw magnetic resonance data set; and store said first and second image data sets in at least one memory device in a form allowing access to said first and second image data sets.
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Specification