Electricity: measuring and testing – Particle precession resonance
Patent
1998-04-24
2000-02-29
Oda, Christine K.
Electricity: measuring and testing
Particle precession resonance
324303, 600407, G01V 300
Patent
active
060313730
DESCRIPTION:
BRIEF SUMMARY
The invention relates to a method for imaging a region of a body by sensing magnetic fields forming on account of nuclear magnetic resonance, by means of a gradiometer and processing the signals obtained with this gradiometer in a data processing device to give an image, the body being subjected to a homogenous magnetic field, and a further magnetic field in which spatial gradients of the field intensity are present being caused to act on the body.
Methods of the afore-mentioned type are known in which the body of which an image is to be made by means of nuclear magnetic resonance is constantly subjected to a homogenous static magnetic field, and in which a further magnetic field comprising spatial gradients is allowed to act on the body, and also a high frequency electromagnetic field is allowed to act on the body, the amplitude of the high frequency field in the respective body region being maintained as constant as possible, and the frequency of this field being slightly varied corresponding to the gradient of the further magnetic field according to the resonance conditions of the atoms present at the various sites of the body. With this known method, various problems occur on account of the action of the high frequency field, among which the often undesired warming on account of the high frequency field and the reduction of the field amplitude of the high frequency field in the interior of the body resulting from the skin effect are particularly to be mentioned.
It is an object of the invention to provide a different concept method of the initially defined type, in which the detrimental problems of the known methods are largely eliminated.
The inventive method of the initially defined kind is characterized in that at first the body to be examined is subjected to a homogenous polarizing static magnetic field and subsequently the field intensity of this magnetic field is reduced, preferably is brought to zero, and a further static magnetic field whose field lines extend transversely to the field lines of the said polarizing magnetic field and in which a gradient is present is caused to act on the body, and that the component of the magnetic fields thereby forming in the body on account of nuclear magnetic resonance and extending in the direction of the field lines of the polarizing magnetic field is sensed by a highly sensitive gradiometer whose detection coils do not have any signal emitting inductive coupling with the polarizing magnetic field. With this method, the afore-mentioned object can well be met. No high frequency field is required, and it is possible to work with comparatively low field intensities of the polarizing magnetic field, while nevertheless a favorable signal-noise-ratio can be obtained. The nuclear spin of the atoms of the body portion to be imaged is polarized by the polarizing magnetic field, and then this magnetic field is reduced or switched off, and the further magnetic field which is directed transversely to the polarizing magnetic field is caused to act, resulting in a precession movement of the nuclear spin in the further magnetic field, the precessing movement in turn forming a magnetic field which is sensed by the gradiometer. If the said further magnetic field is oriented perpendicularly to the polarizing magnetic field, there results from the precession movement an amplitude maximum of the magnetic field or signal detectable by means of the gradiometer in the direction of the polarizing magnetic field (z-direction). The signals emitted from the gradiometer are processed into an image by means of a data processing device.
Preferably, a SQUID gradiometer is used as the gradiometer. This results in a high sensitivity, particularly in the low frequency range of direct current up to approximately 10 kHz which is important here.
The configuration of the gradiometer which may be of the first, second, or of a higher, in particular the third, order is selected such that the detection coils of the gradiometer do not have a signal emitting inductive coupling with the polarizing ma
REFERENCES:
patent: 4442404 (1984-04-01), Bergmann
patent: 5057776 (1991-10-01), Macovski
Magnetic Resonance in Medicine, vol. 30, No. 2, Aug. 1, 1993, Macovski et al "Novel Approaches to Low-Cost MRI" pp. 221-230.
Magnetic Resonance in Medicine, vol. 15, No. 3, Sep. 1, 1990, pp. 386-391; Stepisnik et al "NMR Imaging in the Earth . . . ".
Physics in Medicine and Biology, vol. 37, No. 11, Nov. 1992; pp. 2133-2138; Seton et al: "DC Squid-Based NMR . . . ".
Meszaros Sandor
Szeles Josef Constantin
Oda Christine K.
Shrivastav Brij B.
Szeles Josef Constantin
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