Magnetic resonance imaging device and imaging parameter determination method
First Claim
1. A magnetic resonance imaging device comprising:
- a transmission coil that includes a plurality of channels that respectively transmit radio frequency pulses to a subject;
a storage device which stores a database of data to calculate a specific absorption rate distribution for each of a plurality of predetermined subject models; and
a processor programmed to determine a plurality of imaging parameters among imaging conditions used in imaging the subject, and execute imaging using the determined imaging parameters,wherein the processor is further programmed to;
determine the imaging parameters to optimize a radio frequency magnetic field distribution in a region of interest while suppressing a maximum value of a local specific absorption rate to be equal to or smaller than a specific absorption rate threshold value using the data in the database, andwherein the imaging parameters includes a radio frequency magnetic field parameters which specify the radio frequency pulses to be transmitted through each of the plurality of channels and a specific absorption rate parameter which is different than the radio frequency magnetic field parameters and affects the specific absorption rate,wherein the processor is further programmed to;
determine the radio frequency magnetic field parameters according to predetermined optimization conditions,calculate a specific absorption rate distribution using the determined radio frequency magnetic field parameters, a latest specific absorption rate parameter, and the data in the database when the radio frequency magnetic field parameters are determined,determine whether a maximum value of the calculated specific absorption rate distribution exceeds the specific absorption rate threshold value,when the maximum value exceeds the specific absorption rate threshold value, adjust the specific absorption rate parameter in a predetermined range,when the specific absorption rate parameter is changed, calculate the specific absorption rate distribution using the changed specific absorption rate parameter, determine whether a maximum value of the calculated specific absorption rate distribution using the changed specific absorption rate parameter exceeds the specific absorption rate threshold value, andrepeats, when the maximum value of the specific absorption rate distribution exceeds the specific absorption rate threshold value, a process of changing a threshold value for regulating a uniformity condition in the optimization conditions by a predetermined value, a process of determining the radio frequency magnetic field parameter again, and a process of calculating the specific absorption rate distribution using the re-determined radio frequency magnetic field parameter, until the maximum value of the specific absorption rate distribution becomes equal to or smaller than the specific absorption rate threshold value.
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Abstract
Provided is a technique capable of achieving safety and image quality at the same time in an MRI device using a transmission coil including plural channels. An SAR distribution is calculated, and an imaging parameter is determined for optimizing a radio frequency magnetic field distribution in an imaging region while suppressing a maximum value of an SAR to be equal to or smaller than a predetermined threshold value. The determined imaging parameter includes a radio frequency magnetic field parameter for specifying radio frequency pulses to be transmitted through each of the plural channels. The SAR distribution is calculated using a database that retains an electric field distribution of each of the plural channels for each subject model retained in advance.
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Citations
13 Claims
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1. A magnetic resonance imaging device comprising:
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a transmission coil that includes a plurality of channels that respectively transmit radio frequency pulses to a subject; a storage device which stores a database of data to calculate a specific absorption rate distribution for each of a plurality of predetermined subject models; and a processor programmed to determine a plurality of imaging parameters among imaging conditions used in imaging the subject, and execute imaging using the determined imaging parameters, wherein the processor is further programmed to; determine the imaging parameters to optimize a radio frequency magnetic field distribution in a region of interest while suppressing a maximum value of a local specific absorption rate to be equal to or smaller than a specific absorption rate threshold value using the data in the database, and wherein the imaging parameters includes a radio frequency magnetic field parameters which specify the radio frequency pulses to be transmitted through each of the plurality of channels and a specific absorption rate parameter which is different than the radio frequency magnetic field parameters and affects the specific absorption rate, wherein the processor is further programmed to; determine the radio frequency magnetic field parameters according to predetermined optimization conditions, calculate a specific absorption rate distribution using the determined radio frequency magnetic field parameters, a latest specific absorption rate parameter, and the data in the database when the radio frequency magnetic field parameters are determined, determine whether a maximum value of the calculated specific absorption rate distribution exceeds the specific absorption rate threshold value, when the maximum value exceeds the specific absorption rate threshold value, adjust the specific absorption rate parameter in a predetermined range, when the specific absorption rate parameter is changed, calculate the specific absorption rate distribution using the changed specific absorption rate parameter, determine whether a maximum value of the calculated specific absorption rate distribution using the changed specific absorption rate parameter exceeds the specific absorption rate threshold value, and repeats, when the maximum value of the specific absorption rate distribution exceeds the specific absorption rate threshold value, a process of changing a threshold value for regulating a uniformity condition in the optimization conditions by a predetermined value, a process of determining the radio frequency magnetic field parameter again, and a process of calculating the specific absorption rate distribution using the re-determined radio frequency magnetic field parameter, until the maximum value of the specific absorption rate distribution becomes equal to or smaller than the specific absorption rate threshold value. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A magnetic resonance imaging device, comprising:
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a transmission coil that includes a plurality of channels that respectively transmit radio frequency pulses to a subject; a storage device which stores a database of data to calculate a specific absorption rate distribution for each of a plurality of predetermined subject models; and a processor programmed to determine a plurality of imaging parameters among imaging conditions used in imaging the subject, and execute imaging using the determined imaging parameters, wherein the processor is further programmed to; determine the imaging parameters to optimize a radio frequency magnetic field distribution in a region of interest while suppressing a maximum value of a local specific absorption rate to be equal to or smaller than a specific absorption rate threshold value using the data in the database, and wherein the imaging parameters includes a radio frequency magnetic field parameters which specify the radio frequency pulses to be transmitted through each of the plurality of channels and a specific absorption rate parameter which is different than the radio frequency magnetic field parameters and affects the specific absorption rate, wherein the processor is further programmed to; determine the radio frequency magnetic field parameters according to predetermined optimization conditions, calculate a specific absorption rate distribution using the determined radio frequency magnetic field parameters, a latest specific absorption rate parameter, and the data in the database when the radio frequency magnetic field parameters are determined, determine whether a maximum value of the calculated specific absorption rate distribution exceeds the specific absorption rate threshold value, and when the maximum value exceeds the specific absorption rate threshold value, adjust the specific absorption rate parameter so that the maximum value of the specific absorption rate distribution is equal to or smaller than the specific absorption rate threshold value, wherein the optimization conditions include a uniformity condition that the uniformity of the radio frequency magnetic field distribution is equal to or greater than a predetermined value as a restriction condition, and wherein the processor is further programmed to; calculate a time relating to imaging using the adjusted specific absorption rate parameter, determine whether the calculated imaging time is within an allowable range, and when the calculated imaging time is not within the allowable range, determine a threshold value for regulating the uniformity condition in the optimization conditions by a predetermined value, and determine the radio frequency magnetic field parameter again. - View Dependent Claims (10, 11, 12, 13)
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Specification