Instrument and method for non-invasive in vivo testing for body fluid constituents
First Claim
1. In a nuclear magnetic resonance spectroscopy apparatus for testing body fluids for the presence of constituents, said apparatus being of the type in which a first magnetic field aligns 1 H protons to an intial position, and in which a second magnetic field is cyclicly energized and deenergized to cause alignment of the 1 H protons to a second position and realignment to said intial position, and in which the magnetic changes resulting during realignment are detected and analyzed, the improvement comprising:
- first magnet means comprising a pair of permanent bar magnets each including a north pole and a south pole,second magnet means for creating said second magnetic field;
mounting means for mounting said first magnet means,said mounting means comprising a pair of spaced apart members for positioning said pair of bar magnets spaced apart with the north pole of each said bar magnet secured to one of said members and the south pole of each said bar magnet secured to the other of said members, said first magnet means, said second magnet means and said mounting means providing a cavity defining a test region therein for receiving a sample of the body fluid to be tested,said first magnetic field being substantially uniform in field strength and direction throughout said test region;
said second magnet means being operatively disposed with respect to said test region for being magnetically coupled to the body fluid sample to be tested;
first and second members connecting said pair of spaced apart members, said first connecting member including an aperture therethrough for access of said body fluid sample into said test region;
circuit means for detecting and analyzing said magnetic changes;
said second connecting member having switch means operatively associated therewith for initiating operation of said circuit means;
a sample holder containing a standard sample of known concentrations of the constituents to be investigated;
said standard sample holder being intially disposed in said test region; and
means for biasing said sample holder to urge said sample holder toward said second connecting member and to initially locate said standard sample in said test region and capable of being operatively coupled to said second magnet means when said second magnet means is energized, said switch means being activated in response to the movement of said standard sample holder out of said test region to contact and operate said switch means when said body fluid sample to be tested is moved into said test region.
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Abstract
There is disclosed herein a nuclear magnetic resonance apparatus for testing body fluids for a constituent, for example, blood for glucose. The apparatus includes a principal magnet, a magnetizable coil, and a circuit for energizing the coil for energizing and realigning molecules and detecting changes resulting from relaxation of said field and analyzing said changes. The apparatus is compact and adapted to receive and test an extremity or vessel carrying a body fluid. The coil is constructed to be positioned adjacent the extremity or vessel to be tested. Circuit means are provided for energizing the coil to energize and realign molecules adjacent said coil, so as to permit molecules adjacent said coil to assume an aligned position and for sensing changes in position when the coil is deenergized, which is indicated by spectra having peaks corresponding to various molecular bonds. The circuit also includes means for comparing the actual value of a peak for a first constituent to a predetermined value for the peak of said first constituent and determining the actual value of a second constituent from a predetermined relationship between the values of the peaks for the first and second constituents. Specifically, predetermined water and glucose peaks are compared with the measured water and glucose peaks for determining the measured glucose concentration.
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Citations
31 Claims
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1. In a nuclear magnetic resonance spectroscopy apparatus for testing body fluids for the presence of constituents, said apparatus being of the type in which a first magnetic field aligns 1 H protons to an intial position, and in which a second magnetic field is cyclicly energized and deenergized to cause alignment of the 1 H protons to a second position and realignment to said intial position, and in which the magnetic changes resulting during realignment are detected and analyzed, the improvement comprising:
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first magnet means comprising a pair of permanent bar magnets each including a north pole and a south pole, second magnet means for creating said second magnetic field; mounting means for mounting said first magnet means, said mounting means comprising a pair of spaced apart members for positioning said pair of bar magnets spaced apart with the north pole of each said bar magnet secured to one of said members and the south pole of each said bar magnet secured to the other of said members, said first magnet means, said second magnet means and said mounting means providing a cavity defining a test region therein for receiving a sample of the body fluid to be tested, said first magnetic field being substantially uniform in field strength and direction throughout said test region; said second magnet means being operatively disposed with respect to said test region for being magnetically coupled to the body fluid sample to be tested; first and second members connecting said pair of spaced apart members, said first connecting member including an aperture therethrough for access of said body fluid sample into said test region; circuit means for detecting and analyzing said magnetic changes; said second connecting member having switch means operatively associated therewith for initiating operation of said circuit means; a sample holder containing a standard sample of known concentrations of the constituents to be investigated; said standard sample holder being intially disposed in said test region; and means for biasing said sample holder to urge said sample holder toward said second connecting member and to initially locate said standard sample in said test region and capable of being operatively coupled to said second magnet means when said second magnet means is energized, said switch means being activated in response to the movement of said standard sample holder out of said test region to contact and operate said switch means when said body fluid sample to be tested is moved into said test region. - View Dependent Claims (2)
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3. A portable nuclear magnetic resonance apparatus for spectroscopic testing of samples of body fluids for the presence of a constituent, said apparatus comprising:
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principal magnet means partially defining a test region and having a pair of opposed magnetic poles establishing a substantially uniform magnetic field within the test region; coil means; and circuit means coupled to said coil means for producing an energization and realignment field within the test region and for detecting changes resulting from relaxation of said field and for analyzing said changes; said principal magnet means being positioned to receive and test said body fluid samples in said test region; said circuit means including means for energizing said coil means to resonate 1 H protons adjacent said coil means, and means for sensing the change as indicated by spectra having peaks corresponding to various molecular bonds, said circuit means also including means for comparing the actual amplitude of a peak for a first constituent in the body fluid sample being tested to a predetermined amplitude for a peak for a predetermined quantity of said first constituent contained in a separate, standard sample to determine the actual value of a second constituent in said body fluid from a predetermined relationship between predetermined values of the peaks for the first and second constituents. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method for non-invasively determining the value of a constituent in an aqueous body fluid of a patient using nuclear magnetic resonance spectroscopy, the method comprising the steps of:
analyzing a sample of said aqueous body fluid comprising the substeps of; (a) exposing said body fluid sample to a biasing magnetic field, providing at least one magnetic field pulse to decrease a water peak reading obtained from said body fluid sample, resonating a magnetic field across said body fluid sample, sampling the field and recording data from the field and storing a spectrum of chemical shifts versus peak height as patient data; (b) analyzing a standard sample having a known concentration of the constituent being tested for with the same fields as in substep (a), obtaining a standard sample pulse and recording data in memory and storing a spectrum of chemical shifts versus peak height as standard sample data; (c) checking operation of the system, including the steps of comparing the standard sample data for the constituent being tested with an acceptable standard sample spectrum previously recorded for said constituent for error within a selected tolerance; (d) normalizing the patient data and standard sample data for equal water peaks, including the steps of recalling the patient data and the standard sample data;
adjusting the patient data peak height of water to match that of the standard data peak height of water; and(e) calculating the body fluid sample constituent level comprising the substeps of obtaining a ratio of patient data constituent height to standard sample data constituent height and multiplying it by the concentration of said constituent in said standard sample to obtain a patient reading and displaying that reading. - View Dependent Claims (22, 24, 25, 26, 27, 28)
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23. A method for non-invasively determining the value of a constituent in a sample of an aqueous body fluid of a patient using nuclear magnetic resonance spectroscopy, said method comprising the steps of:
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applying a biasing magnetic field to said sample to align at least the 1 H protons in the body fluid sample to an initial orientation; applying a resonating field to flip the 1 H protons between a further position and the initial position; sensing, as analog signals, magnetic changes as the bonds flip from the further position to the initial position; converting the analog signals into digital signals; storing the digital signals as patient data in a memory; multiplying the accumulated responses in the memory by an exponential decay to improve line broadening; transforming the multiplied data with a fast Fourier transform; repeating the above steps for a standard sample which includes water and a predetermined amount of the constituent being tested for; comparing the spectrum of chemical shifts versus peak height of the standard sample to stored data of a previous predetermined spectrum of the standard sample for allowable error; scaling the patient data peak height of water to match the peak height of water of the standard sample data; forming a ratio of the patient constituent peak height to the standard sample data constituent peak height; multiplying the ratio by the known standard sample constituent/water ratio to obtain a patient constituent reading in designated units; and displaying the patient constituent level in such designated units.
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29. A self-contained portable apparatus for performing in vivo nuclear magnetic resonance spectroscopy testing of body fluids for the presence of certain constituents therein, said apparatus comprising:
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wall means defining a housing; a permanent magnet assembly disposed within said housing, said permanent magnet assembly at least partially defining a test region within said housing; means for defining a relatively narrow access opening in said housing enabling access to said test region for the placement therein of a test sample of the body fluid to be tested, said test region being slightly larger than said test sample, said permanent magnet assembly creating a permanent magnetic field sufficiently effective to align to a first position 1 H protons of said test sample located in said test region; said permanent magnetic field being substantially uniform in field strength and direction throughout said test region; a generator and first means for producing gated radio frequency pulses; coil means positioned within said housing and in close proximity to said test region, said coil means being connected to said generator, and being cyclicly energized by the gated radio frequency pulses for cyclicly flipping the 1 H protons from said first position to a second aligned position, and for sensing the magnetic changes as analog data signals during realignment of said 1 H protons from said second position to said first position; second gate means connected to said coil means for receiving the analog data signals during realignment of said 1 H protons from said second position to said first position; an analog/digital converter connected to said second gate means for converting the analog data signals into digital data signals; control means connected to said generator and said first gate means for receiving data from said analog/digital converter, said control means comprising means for storing and analyzing said digital data signals; and display means for displaying the results of said analysis to a user. - View Dependent Claims (30, 31)
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Specification