Method for blood flow acceleration and velocity measurement using MR catheters
First Claim
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1. A magnetic resonance (MR) fluid flow measurement system for measuring the flow of a fluid in a vessel of a subject comprising:
- a) means for applying a substantially homogeneous magnetic field over said subject;
b) an invasive device for insertion into said subject;
c) an RF transmit coil means attached to the invasive device at a first location, for transmitting intermittent perturbation RF pulses into said subject;
d) an RF transmit/receive coil means, attached to the invasive device at a second location being a predetermined distance from the location of the RF transmit coil means, for transmitting sampling RF pulses into said subject and for receiving an MR response signal from said subject;
e) a transmitter means, coupled to the RF transmit and RF transmit/receive coil means, for providing RF energy of a selected duration, amplitude and frequency to the RF transmit and RF transmit/receive coil means thereby causing nutation of a selected ensemble of spins in said subject when activated;
f) a detection means attached to the RF transmit/receive coil means for detecting an MR response signal from the RF transmit/receive coil means when activated and for determining when a change has occurred in the received MR response signal;
g) a controller means coupled to the means for applying a substantially homogeneous magnetic field, transmitter means and the detection means, for activating the transmitter means at regularly spaced intervals causing the transmitter means to transmit a plurality of regularly spaced RF sampling pulses, and for intermittently activating the transmitter means causing the transmitter means to intermittently transmit perturbation pulses, and for activating the detection means causing the detection means to detect changes in the MR response signal; and
h) a calculation means coupled to the transmitter means and the detection means for determining the time delay between transmission of an RF perturbation pulse and the change in a corresponding MR response signal and for calculating a first fluid flow velocity from this time delay and the predetermined distance.
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Abstract
A method of magnetic resonance (MR) fluid flow measurement within a subject employs an invasive device with an RF transmit/receive coil and an RF transmit coil spaced a known distance apart. The subject is positioned in a static magnetic field. The invasive device is positioned in a vessel of a subject in which fluid flow is desired to be determined. A regular pattern of RF transmission pulses are radiated through the RF transmit/receive coil causing it to cause a steady-state MR response signal. Intermittently a second RF signal is transmitted from the RF coil positioned upstream which causes a change in the steady-state MR response signal sensed by the downstream transmit/receive coil. This is detected a short delay time later at the RF receive coil. The time delay and the distance between the RF coils leads directly to a fluid velocity. By exchanging the position of the RF transmit and transmit/receive coils, retrograde velocity may be measured. In another embodiment, more RF coils are employed. The changed MR response signal may be sensed at a number of locations at different times, leading to a measured change in velocity, or acceleration of the fluid.
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Citations
6 Claims
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1. A magnetic resonance (MR) fluid flow measurement system for measuring the flow of a fluid in a vessel of a subject comprising:
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a) means for applying a substantially homogeneous magnetic field over said subject; b) an invasive device for insertion into said subject; c) an RF transmit coil means attached to the invasive device at a first location, for transmitting intermittent perturbation RF pulses into said subject; d) an RF transmit/receive coil means, attached to the invasive device at a second location being a predetermined distance from the location of the RF transmit coil means, for transmitting sampling RF pulses into said subject and for receiving an MR response signal from said subject; e) a transmitter means, coupled to the RF transmit and RF transmit/receive coil means, for providing RF energy of a selected duration, amplitude and frequency to the RF transmit and RF transmit/receive coil means thereby causing nutation of a selected ensemble of spins in said subject when activated; f) a detection means attached to the RF transmit/receive coil means for detecting an MR response signal from the RF transmit/receive coil means when activated and for determining when a change has occurred in the received MR response signal; g) a controller means coupled to the means for applying a substantially homogeneous magnetic field, transmitter means and the detection means, for activating the transmitter means at regularly spaced intervals causing the transmitter means to transmit a plurality of regularly spaced RF sampling pulses, and for intermittently activating the transmitter means causing the transmitter means to intermittently transmit perturbation pulses, and for activating the detection means causing the detection means to detect changes in the MR response signal; and h) a calculation means coupled to the transmitter means and the detection means for determining the time delay between transmission of an RF perturbation pulse and the change in a corresponding MR response signal and for calculating a first fluid flow velocity from this time delay and the predetermined distance. - View Dependent Claims (2, 3)
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4. A method for measuring the flow of a fluid in a vessel of a subject comprising the steps of:
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a) applying a substantially homogeneous magnetic field over said subject; b) inserting an invasive device into said subject having an RF transmit coil, and an RF transmit/receive coil a known distance apart; c) repeatedly transmitting RF energy of a selected duration, amplitude and frequency from the RF transmit/receive coil to cause nutation of a selected ensemble of spins in said subject; d) detecting a steady-state MR response signal from the RF transmit/receive coil e) transmitting intermittent RF energy from the RF transmit coil so as to cause a change in the steady-state MR response signal detected by the RF transmit/receive coil; f) determining a delay between when the intermittent RF energy signal was transmitted from the RF transmit coil to when a change in the steady-state MR response signal has occurred; g) calculating a fluid flow velocity from the known distance between the RF coils and the measured delay. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeGeneral Electric Company
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Original AssigneeGeneral Electric Company
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InventorsDumoulin, Charles L., Darrow, Robert D.
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Primary Examiner(s)Smith, Ruth S.
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Application NumberUS08/264,281Time in Patent Office432 DaysField of Search128/653.3, 324/306, 324/307US Class Current600/419CPC Class CodesA61B 5/0263 using NMRG01F 1/716 using electron paramagnetic...G01P 5/18 by measuring the time taken...G01R 33/285 Invasive instruments, e.g. ...G01R 33/34084 implantable coils or coils ...G01R 33/56308 Characterization of motion ...
