Magnetic resonance imaging techniques
First Claim
1. A method of producing an image of an object, comprising the steps of:
- selecting first and second pulse sequences for waveform and phase components of an RF signal, said first pulse sequence being a sinusoidal function and said second pulse sequence being a step function;
generating said RF waveform and RF phase components of said RF signal, said generated RF signal producing transverse magnetization in said object;
receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and
producing an image of said object from said received series of echoes.
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Accused Products
Abstract
Method for MR imaging of an object in which various RF and magnetic field gradient pulse sequences are used to produce transverse magnetization and to generate echoes. The RF pulse sequence may include a sinusoidal waveform component defined by either y=sin x, 0≦x ≦4π; y=cos x, 0≦x ≦4π; or y=sin x, 0≦x≦π/2, y=cos x, π/2≦x≦π; and a phase component defined by either y=0, 0≦x≦2π, y=π, 2π≦x≦4π; or y =-2πcos x, 0≦x≦π/2, y=-2πsin x, π/2≦x≦π. The selected waveform and phase components may be combined to form a first, composite RF signal and the Hilbert transform of the composite RF signal selected as a second RF signal. Alternately, the second RF pulse sequence may be comprised of first and second phase shifting linear ramps. The selected gradient magnetic field pulse sequences may include a first sinusoidal readout pulse sequence defined by y=ax sin x, 0≦x≦nπ and a second sinusoidal readout pulse sequence defined by y=ax cos x, 0≦x≦nπ, first and second constant magnitude phase encoding pulse sequences, or a square wave as a readout pulse sequence and a series of positive amplitude spikes positioned at each transition for the readout pulse sequence as a phase encode pulse sequence.
54 Citations
58 Claims
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1. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal, said first pulse sequence being a sinusoidal function and said second pulse sequence being a step function; generating said RF waveform and RF phase components of said RF signal, said generated RF signal producing transverse magnetization in said object; receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and producing an image of said object from said received series of echoes. - View Dependent Claims (2, 3, 4)
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5. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal, said first and second pulse sequences each comprised of adjoining first and second generally sinusoidal sections separated from each other by a phase shift of π
/2;generating said first and second RF components of said RF signal, said generated RF signal producing transverse magnetization in said object; receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and producing an image of said object from said received series of echoes. - View Dependent Claims (6, 7)
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8. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; combining said pulse sequences for said waveform and phase components of said RF signal into a composite RF pulse sequence; determining the Hilbert transform of said composite RF pulse sequence; generating first and second RF signals, said first signal having said composite RF pulse sequence and said second signal having the Hilbert transform of said composite RF pulse sequence, said first and second generated RF signals producing transverse magnetization in said object; receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and producing an image of said object from said received series of echoes. - View Dependent Claims (9, 10, 11)
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12. A method of producing an image of an object, comprising the steps of:
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selecting a pulse sequence for an RF signal; selecting a centering frequency for said selected RF pulse sequence based upon characteristics of said object to be imaged; generating said RF signal having said selected pulse sequence centered at said centering frequency to produce transverse magnetization in said object such that excitation of components of said object by said produced transverse magnetization is controlled by said selected pulse sequence and said centering frequency; receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and producing an image of said object from said received series of echoes. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; combining said pulse sequences for said waveform and phase components of said RF signal into a composite RF pulse sequence; selecting a second pulse sequence, said second pulse sequence comprised of first and second linear ramping phase components; generating first and second RF signals, said first signal having said composite RF pulse sequence and said second signal having said second pulse sequence, said first and second generated RF signals producing transverse magnetization in said object; receiving, in response to the repeated generation of said RF signal in the presence of first, second and third changing magnetic fields, a series of echoes; and producing an image of said object from said received series of echoes. - View Dependent Claims (23, 24)
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25. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; selecting first and second gradient magnetic field readout pulse sequences to be generated along first and second axes, respectively, of said object; generating said RF waveform and RF phase pulse sequences to produce transverse magnetization in said object; generating said first and second gradient magnetic field readout pulse sequences along said first and second axes and a phase encoding gradient magnetic field along a third axis of said object to produce a first spiral of k-space echoes; repeatedly stepping said phase encoding gradient magnetic field and generating said RF waveform, RF phase and said first and second gradient magnetic field pulse sequences and said stepped phase encoding gradient magnetic field to produce additional spirals of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (26, 27, 28, 29, 30, 31, 32)
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33. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences f or waveform and phase components of an RF signal; combining said pulse sequences for said waveform and phase components of said RF signal into a composite RF pulse sequence; determining the Hilbert transform of said composite RF pulse sequence; selecting first and second gradient magnetic field readout pulse sequences to be generated along first and second axes, respectively, of said object; generating first and second RF signals, said first signal having said composite RF pulse sequence and said second signal having the Hilbert transform of said composite RF pulse sequence, said first and second generated RF signals producing transverse magnetization in said object; generating said first and second gradient magnetic field readout pulse sequences along said first and second axes and a phase encoding gradient magnetic field along a third axis of said object to produce a first spiral of k-space echoes; repeatedly stepping said phase encoding gradient magnetic field and generating said first and second RF signals, said first and second gradient magnetic field pulse sequences and said stepped phase encoding gradient magnetic field to produce additional spirals of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40)
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41. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; selecting first and second pulse magnitudes for first and second constant magnitude gradient magnetic fields to be generated along first and second axes, respectively, of said object; generating said RF waveform and RF phase pulse sequences to produce transverse magnetization in said object; generating said first and second gradient magnetic fields along said first and second axes in the presence of a third, constant magnitude, gradient magnetic field generated along a third axis of said object to produce a first linear projection of k-space echoes; repeatedly stepping said first and second pulse magnitudes for said first and second gradient magnetic fields and generating said RF waveform and RF phase pulse sequences and said stepped first and second gradient magnetic fields and said third, constant magnitude,, gradient magnetic field to produce additional linear projections of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (42, 43, 44)
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45. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; combining said pulse sequences for said waveform and phase components of said RF signal into a composite RF pulse sequence; determining the Hilbert transform of said composite RF pulse sequence; selecting first and second pulse magnitudes for first and second constant magnitude gradient magnetic fields to be generated along first and second axes, respectively, of said object; generating first and second RF signals, said first signal having said composite RF pulse sequence and said second signal having the Hilbert transform of said composite RF pulse sequence, said first and second generated RF signals producing transverse magnetization in said object; generating said first and second gradient magnetic fields along said first and second axes in the presence of a third, constant magnitude, gradient magnetic field generated along a third axis of said object to produce a first linear projection of k-space echoes; repeatedly stepping said first and second pulse magnitudes for said first and second gradient magnetic fields and generating said first and second RF pulse sequences and said stepped first and second gradient magnetic fields and said third, constant magnitude, gradient magnetic field to produce additional linear projections of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (46, 47, 48)
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49. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; selecting a gradient magnetic field phase encoding pulse sequence and a gradient magnetic field readout pulse sequence to be generated along first and second axes, respectively, of said object; generating said RF waveform and RF phase pulse sequences to produce transverse magnetization in said object; generating said first and second gradient magnetic field readout pulse sequences along said first and second axes and a phase encoding gradient magnetic field along a third axis of said object to produce a first plane of k-space echoes; said gradient magnetic field phase readout pulse sequence comprised of a series of pulse segments alternately having positive and negative amplitudes and said gradient magnetic field phase encoding pulse sequence comprised of a positive amplitude spike positioned at each transition between positive and negative amplitude pulse segments for said first gradient magnetic field pulse sequence; repeatedly stepping said phase encoding gradient magnetic field and generating said RF waveform and RF phase pulse sequences, said gradient magnetic field phase encoding and said gradient magnetic field readout pulse sequences and said stepped phase encoding gradient magnetic field to produce additional planes of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (50, 51, 52, 53)
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54. A method of producing an image of an object, comprising the steps of:
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selecting first and second pulse sequences for waveform and phase components of an RF signal; combining said pulse sequences for said waveform and phase components of said RF signal into a composite RF pulse sequence; determining the Hilbert transform of said composite RF pulse sequence; selecting a gradient magnetic field phase encoding pulse sequence and a gradient magnetic field readout pulse sequence to be generated along first and second axes, respectively, of said object; generating first and second RF signals, said first signal having said composite RF pulse sequence and said second signal having the Hilbert transform of said composite RF pulse sequence, said first and second generated RF signals producing transverse magnetization in said object; generating said gradient magnetic field phase encoding pulse sequence and said gradient magnetic field readout pulse sequence along said first and second axes and a phase encoding gradient magnetic field along a third axis of said object to produce a first plane of k-space echoes; said gradient magnetic field readout pulse sequence comprised of a series of pulse segments alternately having positive and negative amplitudes and said gradient magnetic field phase encoding pulse sequence comprised of a positive amplitude spike positioned at each transition between positive and negative amplitude pulse segments for said gradient magnetic field readout pulse sequence; repeatedly stepping said phase encoding gradient magnetic field and generating said first and second RF pulse sequences, said gradient magnetic field readout pulse sequence, said gradient magnetic field readout pulse sequence and said stepped phase encoding gradient magnetic field to produce additional planes of k-space echoes; and producing an image of said object from said received echoes. - View Dependent Claims (55, 56, 57, 58)
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Specification