Adaptive imaging parameters with MRI
First Claim
Patent Images
1. A system, comprising:
- a magnetic resonance imaging (MRI) apparatus configured to acquire a magnetic resonance (MR) signal from an object during an MR procedure using a radial trajectory without acquiring information associated with a catheter inserted into the object, the apparatus being controlled, at least in part, by an imaging parameter;
a parameter logic configured to selectively automatically adapt, substantially in real time, the imaging parameter during the MR procedure based, at least in part, on analyzing one or more attributes of the object as provided in data associated with the MR signal without analyzing an attribute of a catheter; and
a data store configured to store the imaging parameter.
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Abstract
Systems, methodologies, media, and other embodiments associated with automatically adapting MRI controlling parameters are described. One exemplary method embodiment includes configuring an MRI apparatus to acquire MR signal data using a non-rectilinear trajectory. The example method may also include acquiring MR signals, transforming the MR signals into image data, and selectively adapting the MRI controlling parameters based, at least in part, on information associated with the MR signals.
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Citations
25 Claims
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1. A system, comprising:
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a magnetic resonance imaging (MRI) apparatus configured to acquire a magnetic resonance (MR) signal from an object during an MR procedure using a radial trajectory without acquiring information associated with a catheter inserted into the object, the apparatus being controlled, at least in part, by an imaging parameter; a parameter logic configured to selectively automatically adapt, substantially in real time, the imaging parameter during the MR procedure based, at least in part, on analyzing one or more attributes of the object as provided in data associated with the MR signal without analyzing an attribute of a catheter; and a data store configured to store the imaging parameter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A system, comprising:
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a magnetic resonance imaging (MRI) apparatus configured to acquire an MR signal from an object using a radial imaging sequence during one of, a perfusion MRI procedure, a diffusion MRI procedure, a blood oxygen level dependent (BOLD) MRI procedure, a functional imaging procedure, a metabolic imaging procedure, and an anatomical imaging procedure using a contrast mechanism, the apparatus being controlled, at least in part, by one or more imaging parameters a parameter logic configured to selectively automatically adapt a number of radial projections per MR signal acquisition period of time during the MR procedure based, at least in part, on analyzing one or more attributes of the object as provided in data associated with the MR signal without acquiring or analyzing any information associated with a catheter; and a data store configured to store the imaging parameters; the imaging parameters including one or more of, a temporal resolution parameter, a spatial resolution parameter, a field of view (FOV) parameter, a slice position parameter, a slice orientation parameter, a slice thickness parameter, a slice rotation parameter, a bandwidth parameter, a time to repetition (TR) parameter, a time to echo (TE) parameter, a tip angle for the RF excitation parameter, a pulse sequence type parameter, a number of projections per signal data acquisition period of time parameter, a number of interleaves per MR signal data acquisition period of time parameter, a time from inversion (TI) parameter, a signal to noise ratio parameter, an RF excitation/ADG center frequency parameter, an RE excitation/ADC phase parameter, and an active receive coils for data collection parameter, the imaging parameters being adapted according to one of, a continuous function, and a binary function.
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16. A computer-implemented method, comprising:
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establishing a set of configuration data to control an MRI apparatus to acquire MR signals from an object using one or more of a non-rectilinear trajectory, and a non-Fourier imaging sequence; controlling the MRI apparatus to acquire MR signals from the object; receiving MR signals from the object, where the signals are associated with the object and are not associated with a device inserted into the object; transforming received MR signals into an image data; and while continuing to receive MR signals from the object, selectively manipulating the set of configuration data in real time to control the MRI apparatus to acquire MR signals based, at least in part, on a feedback information provided in the MR signals. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23)
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24. A computer-readable medium storing computer-executable instructions operable to perform a method, the method comprising:
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establishing a set of configuration data to control an MRI apparatus to acquire MR signals from an object using one or more of a non-rectilinear trajectory, and a non-Fourier imaging sequence; controlling the MRI apparatus to acquire MR signals from the object; receiving MR signals from the object, where the signals are associated with the object and are not associated with a device inserted into the object; transforming received MR signals into an image data; and while continuing to receive MR signals from the object, selectively manipulating the set of configuration data substantially in real time based, at least in part, on a feedback information provided in the MR signals.
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25. An apparatus, comprising:
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means for configuring an MRI apparatus to perform an MRI procedure and to acquire MR signals using one or more of a non-rectilinear trajectory, and a non-Fourier imaging sequence during the MRI procedure; means for transforming MR signals into image data; means for establishing a threshold condition that controls whether the MRI apparatus should be reconfigured during the procedure, the threshold condition concerning one or more of, a perfusion data change, a perfusion data rate of change, a diffusion data change, a diffusion data rate of change, a blood oxygen level data change, a blood oxygen level data rate of change, a spectroscopic data, a contrast agent data, and an anatomical data; means for examining the image data to determine whether the threshold condition has been met; and means for reconfiguring the MRI apparatus in response to determining that the threshold condition has been met.
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Specification