Magnetic resonance method and device for measuring a periodically varying fluid flow in an object
First Claim
1. A method of measuring a periodically varying fluid flow in an object by means of magnetic resonance, which object is arranged in a steady magnetic field, said method comprising:
- generating an excitation RF pulse in order to direct a reference magnetization into a transverse plane relative to the direction of the steady magnetic field, applying a first additional gradient in a flow direction of the fluid flow in order to produce a phase shift in the reference magnetization, generating a first additional RF pulse in order to direct the reference magnetization into the direction of the steady magnetic field, generating a second additional RF pulse in order to direct a part of the reference magnetization into a transverse direction relative to the direction of the steady magnetic field, applying a second additional gradient in the flow direction in order to cancel the phase shift caused by the first additional gradient in static material near the fluid flow, measuring a first MR signal, and determining a displacement of the fluid from the measured first MR signal and a reference MR signal, wherein, near a phase of a first period of the periodically a, varying fluid flow, the excitation RF pulse is generated, the first additional gradient is applied and the first additional RF pulse is generated, and, near a corresponding phase of a second period of the periodically varying fluid flow, the second additional RF pulse is generated, the second additional gradient is applied and the first MR signal is measured.
2 Assignments
0 Petitions
Accused Products
Abstract
The invention relates to a method for in vivo measurement of a periodically varying fluid flow in an object by means of magnetic resonance. The method includes a step for applying first and second additional magnetic field gradients in order to shift the phase of a reference magnetization, which phase shift relates to a net flow of the fluid during an interval between the application of the additional magnetic field gradients. According to the invention, near a phase of a period of the periodically varying fluid flow an excitation RF pulse is generated, the first additional gradient is applied and a first additional RF pulse is generated and near a corresponding phase of a second period of the periodically varying fluid flow a second additional RF pulse is generated and the second additional gradient is applied.
19 Citations
8 Claims
-
1. A method of measuring a periodically varying fluid flow in an object by means of magnetic resonance, which object is arranged in a steady magnetic field, said method comprising:
-
generating an excitation RF pulse in order to direct a reference magnetization into a transverse plane relative to the direction of the steady magnetic field, applying a first additional gradient in a flow direction of the fluid flow in order to produce a phase shift in the reference magnetization, generating a first additional RF pulse in order to direct the reference magnetization into the direction of the steady magnetic field, generating a second additional RF pulse in order to direct a part of the reference magnetization into a transverse direction relative to the direction of the steady magnetic field, applying a second additional gradient in the flow direction in order to cancel the phase shift caused by the first additional gradient in static material near the fluid flow, measuring a first MR signal, and determining a displacement of the fluid from the measured first MR signal and a reference MR signal, wherein, near a phase of a first period of the periodically a, varying fluid flow, the excitation RF pulse is generated, the first additional gradient is applied and the first additional RF pulse is generated, and, near a corresponding phase of a second period of the periodically varying fluid flow, the second additional RF pulse is generated, the second additional gradient is applied and the first MR signal is measured. - View Dependent Claims (2, 3, 4, 5, 6)
near a corresponding phase of a further third period of the periodically varying fluid flow, generating the excitation RF pulse, applying the first additional gradient, and generating the first additional RF pulse, and near a corresponding phase of a further fourth period of the periodically varying fluid flow, generating the second additional RF pulse, applying the second additional gradient, and measuring the reference MR signal, wherein a time integral of the first additional gradient applied in the third period is different from a corresponding time integral of the first additional gradient applied in the first period. -
4. A method as claimed in claim 1 further comprising determining the reference MR signal
generating a third additional RF pulse near a corresponding phase of a next period of the periodic fluid flow, applying a third additional gradient which has the same properties as the second additional gradient, and measuring the reference MR signal. -
5. A method as claimed in claim 1, in which the fluid flow varies with a period which corresponds to a period of a cardiac cycle of a human or animal to be examined, and wherein the method further comprises
measuring an ECG of the human or animal to be examined, and determining a reference from the measured ECG which corresponds to the phase in the period of the periodically varying fluid flow. -
6. A method as claimed in claim 5 further comprising determining a zero crossing of the flow velocity of the periodically varying fluid flow by measurement of a flow velocity of the periodically varying fluid flow, and wherein the reference also corresponds to the zero crossing of the flow velocity of the periodically varying fluid flow.
-
-
7. A method of forming a two-dimensional velocity profile of a periodically varying fluid flow in an object by means of magnetic resonance, which object is arranged in a steady magnetic field, said method comprising:
-
generating an excitation RF pulse in order to direct a reference magnetization into a transverse plane relative to the direction of the steady magnetic field, applying a first additional gradient in a flow direction of the fluid flow in order to produce a phase shift in the reference magnetization, generating a first additional RF pulse in order to direct the reference magnetization into the direction of the steady magnetic field, generating a second additional RF pulse in order to direct a part of the reference magnetization into a transverse direction relative to the direction of the steady magnetic field, applying a second additional gradient in the flow direction in order to cancel the phase shift caused by the first additional gradient in static material near the fluid flow, measuring first MR signals, determining a phase image from the measured first MR signals, and determining the two-dimensional velocity profile of the fluid from the phase image and a reference phase image, wherein near a phase of a first period of the periodically varying fluid flow, the excitation RF pulse is generated, the first additional gradient is applied and the first additional RF pulse is generated, and, near a corresponding phase of a second period of the periodically varying fluid flow, the second additional RF pulse is generated, the second additional gradient is applied and the first MR signal is measured.
-
-
8. A device for measuring a periodically varying fluid flow in an object to be examined by means of magnetic resonance, which object is arranged in a steady magnetic field, said device comprising:
-
means for sustaining a steady magnetic field, means for applying gradients, means for generating RF pulses to be applied to the object to be examined in the steady magnetic field, a control unit for controlling the application of gradients and the generating of RF pulses, and means for receiving and sampling magnetic resonance signals which are generated by pulse sequences containing the RF pulses and the gradients, wherein said control unit is arranged to generate an excitation RF pulse in order to direct a reference magnetization into a plane which extends transversely to the direction of the steady magnetic field, apply a first additional magnetic field gradient in a flow direction of the fluid flow in order to produce a phase shift in the reference magnetization, generate a first additional RF pulse in order to direct the reference magnetization into the direction of the steady magnetic field, generate a second additional RF pulse in order to direct a part of the reference magnetization into a transverse direction relative to the direction of the steady magnetic field, apply a second additional magnetic field gradient in the flow direction in order to cancel the phase shift caused by the first additional gradient, measure a first MR signal, and determine a displacement of the fluid from the measured first MR signal and a reference signal, wherein the control unit is further arranged so that, near a phase of a first period of the periodically varying fluid flow, the excitation RF pulse is generated, the first additional gradient is applied and the first additional RF pulse is generated, and, near a corresponding phase of a second period of the periodically varying fluid flow, the second additional RF pulse is generated, the second additional gradient is applied and the first MR signal is measured.
-
Specification