Quantitative contrast enhanced black-blood imaging using quadruple-inversion recovery
First Claim
1. A method for simultaneous suppression of components of a magnetic resonance signal used for imaging a site in a subject, said components corresponding to both portions of the site disposed outside an imaged field of view, and blood flowing through the site, comprising the steps of:
- (a) using a magnetic resonance imaging device, generating a preparative sequence of inversion radiofrequency (RF) pulses prior to executing an imaging acquisition, a total number of the RF pulses being an even number at least equal to four;
(b) applying said RF pulses to the subject so that the RF pulses are grouped into a plurality of double-inversion procedures, each double-inversion procedure including a first selective RF pulse executed synchronously with a magnetic field gradient pulse targeted to select a first volume and a second selective RF pulse executed synchronously with a magnetic field gradient pulse targeted to select a second volume that crosses and is generally transverse to the first volume, wherein the first and second selective RF pulses in each double-inversion procedure are immediately adjacent to each other in time such that each double inversion procedure causes a zero-degree rotation of a magnetization of a crossing portion of the first volume and the second volume and a 180-degree rotation of a magnetization of a remainder of each volume, both of said magnetizations being substantially aligned along a direction of the magnetic field so that no transverse components of the magnetizations are present;
(c) applying a first predefined time delay between one of the first and second selective RF pulses in one procedure and a corresponding one of the first and second selective RF pulses in a successive double-inversion procedure; and
(d) for a double-inversion procedure selected to be a last double-inversion procedure before the signal used to produce an image is acquired, applying a second predefined time delay following the corresponding one of the first and the second selective RF pulses, before acquiring the signal that will be processed to produce the image of the site, such that the longitudinal magnetizations from the portions of the site disposed outside of the imaged field of view and from the flowing blood are substantially suppressed when producing the image of the site as a result of applying the sequence of RF pulses that includes the first predefined time delay and the second predefined time delay.
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Accused Products
Abstract
A reduced field-of-view (FOV) imaging technique combines suppression of signals from outer volume and inflowing blood. Both outer volume and blood suppression are achieved using an SFQIR (Small-FOV Quadruple-inversion-Recovery) preparative pulse sequence including two double-inversion pulse pairs separated by appropriate delays. Within each pair, inversion pulses are successively applied to the imaged slice and the slab orthogonal to the imaging plane, with the thickness equal to the FOV size in the phase-encoding direction. Each double-inversion results in a reinversion of the magnetization in a central part of the FOV, while outer areas of the FOV and inflowing blood remain inverted. The SFQIR module was implemented for single-slice and multislice acquisition with a fast spin-echo readout sequence. Timing parameters of the sequence corresponding to the maximal suppression efficiency can be found by minimizing variation of the normalized signal over the entire range of T1 occurring in tissues.
33 Citations
21 Claims
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1. A method for simultaneous suppression of components of a magnetic resonance signal used for imaging a site in a subject, said components corresponding to both portions of the site disposed outside an imaged field of view, and blood flowing through the site, comprising the steps of:
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(a) using a magnetic resonance imaging device, generating a preparative sequence of inversion radiofrequency (RF) pulses prior to executing an imaging acquisition, a total number of the RF pulses being an even number at least equal to four; (b) applying said RF pulses to the subject so that the RF pulses are grouped into a plurality of double-inversion procedures, each double-inversion procedure including a first selective RF pulse executed synchronously with a magnetic field gradient pulse targeted to select a first volume and a second selective RF pulse executed synchronously with a magnetic field gradient pulse targeted to select a second volume that crosses and is generally transverse to the first volume, wherein the first and second selective RF pulses in each double-inversion procedure are immediately adjacent to each other in time such that each double inversion procedure causes a zero-degree rotation of a magnetization of a crossing portion of the first volume and the second volume and a 180-degree rotation of a magnetization of a remainder of each volume, both of said magnetizations being substantially aligned along a direction of the magnetic field so that no transverse components of the magnetizations are present; (c) applying a first predefined time delay between one of the first and second selective RF pulses in one procedure and a corresponding one of the first and second selective RF pulses in a successive double-inversion procedure; and (d) for a double-inversion procedure selected to be a last double-inversion procedure before the signal used to produce an image is acquired, applying a second predefined time delay following the corresponding one of the first and the second selective RF pulses, before acquiring the signal that will be processed to produce the image of the site, such that the longitudinal magnetizations from the portions of the site disposed outside of the imaged field of view and from the flowing blood are substantially suppressed when producing the image of the site as a result of applying the sequence of RF pulses that includes the first predefined time delay and the second predefined time delay. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for magnetic resonance imaging a site in a body of a subject so that contributions to an image of the site from both tissue that is outside a desired region to be imaged at the site and from blood flowing through the site are substantially and simultaneously reduced, comprising the steps of:
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(a) using a magnetic resonance imaging device, generating at least two pairs of preparative radio frequency (RF) inversion pulses synchronously with corresponding pairs of magnetic field gradient pulses, each pair of RF pulses causing a double-inversion of the magnetization at the desired region, said at least two pairs of preparative radio frequency inversion pulses occurring before acquiring an image of the site; (b) applying the at least two pairs of inversion RF pulses to the subject as a preparative sequence of RF pulses executed prior to acquiring a signal usable for imaging the desired region, one RF pulse of each pair of RF pulses being targeted to select a first volume and the other RF pulse of each pair being targeted to select a second volume, wherein the first and second volumes extend generally transversely to each other, in a crossing relationship, such that each pair of RF inversion pulses and corresponding pair of magnetic field gradient pulses comprise a double inversion procedure that causes a zero-degree rotation of a magnetization of a crossing portion of the first volume and the second volume and a 180-degree rotation of a magnetization of a remainder of each volume, both of said magnetizations being substantially aligned along a direction of the magnetic field so that no transverse components of the magnetizations are present; (c) applying a first time delay that was previously determined, between the RF pulses targeted at one of the first and second volumes occurring in successive pairs of the RF pulses; and (d) applying a second time delay following the RF pulse targeted at the one of the first and second volumes in a last pair of RF pulses during the preparative sequence, before acquiring the signal for processing to produce the image of the site, the contributions to the image of the site from the tissue that is outside a desired region and from blood flowing through the site being substantially suppressed when the signal is used to produce the image of the site, as a result of thus executing the preparative sequence. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
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Specification