Method for noninvasive continuous determination of physiologic characteristics
First Claim
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1. A method for noninvasively determining physiological parameters of a patient, comprising the steps of:
- providing a first tissue probe, said first tissue probe including a first radiation emitter adapted to emit first radiation having a first wavelength and a first radiation detector adapted to receive said first radiation after absorbance through a first radiation path length of the patient'"'"'s blood;
providing a second tissue probe, said second tissue probe including a second radiation emitter adapted to emit second radiation having a second wavelength and a second radiation detector adapted to receive said second radiation after absorbance through a second radiation path length;
varying the volume and pressure of the patient'"'"'s blood at first and second patient sites, said first patient site being proximate said first tissue probe, said second patient site being proximate second tissue probe;
measuring first absorbance of the patient'"'"'s blood at said first patient site as said blood volume and pressure are varied by transmitting said first radiation at said first wavelength through the patient'"'"'s blood and detecting said first radiation after passage through the patient'"'"'s blood;
measuring second absorbance of the patient'"'"'s blood at said second patient site as said blood volume and pressure are varied by transmitting said second radiation at said second wavelength through the patient'"'"'s blood and detecting said second radiation after passage through the patient'"'"'s blood;
timing the arrival of pulse and flow waves at said first and second patient sites by comparing said first and second absorbances measured at said first and second patient sites; and
determining a cardiac characteristic based on said arrival times of said pulse and flow waves.
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Abstract
The invention comprises methods for noninvasively monitoring physiological characteristics of a patient'"'"'s blood. Determinations of blood constituent concentrations may be made by comparing absorbance of radiation at varying parameters, such as path length and blood pressure. Preferably, changes in pressure are effected by changing the height of the probes relative to the patient'"'"'s heart. Determinations of blood pH may be made by comparing absorbance of the blood at different wavelengths. The temperature of the blood, and thus of the patient'"'"'s core, may also be accurately determined. Further, cardiac output characteristics and blood pressures may be noninvasively determined using the methods of the invention.
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Citations
10 Claims
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1. A method for noninvasively determining physiological parameters of a patient, comprising the steps of:
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providing a first tissue probe, said first tissue probe including a first radiation emitter adapted to emit first radiation having a first wavelength and a first radiation detector adapted to receive said first radiation after absorbance through a first radiation path length of the patient'"'"'s blood; providing a second tissue probe, said second tissue probe including a second radiation emitter adapted to emit second radiation having a second wavelength and a second radiation detector adapted to receive said second radiation after absorbance through a second radiation path length; varying the volume and pressure of the patient'"'"'s blood at first and second patient sites, said first patient site being proximate said first tissue probe, said second patient site being proximate second tissue probe; measuring first absorbance of the patient'"'"'s blood at said first patient site as said blood volume and pressure are varied by transmitting said first radiation at said first wavelength through the patient'"'"'s blood and detecting said first radiation after passage through the patient'"'"'s blood; measuring second absorbance of the patient'"'"'s blood at said second patient site as said blood volume and pressure are varied by transmitting said second radiation at said second wavelength through the patient'"'"'s blood and detecting said second radiation after passage through the patient'"'"'s blood; timing the arrival of pulse and flow waves at said first and second patient sites by comparing said first and second absorbances measured at said first and second patient sites; and determining a cardiac characteristic based on said arrival times of said pulse and flow waves. - View Dependent Claims (2)
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3. A method for non-invasively determining a cardiac characteristic of a patient, comprising the steps of:
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determining pulse wave velocity in a first extremity; determining pulse wave velocity in a second, opposite extremity; determining flow wave velocity as a function of ratios of said pulse wave velocities in said first and second extremities; and determining at least one cardiac output characteristic based on said flow wave velocity. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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Specification
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Current AssigneeWoolsthrope Technologies, LLC
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Original AssigneeWoolsthorpe, LLC
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InventorsMills, Alexander K.
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Primary Examiner(s)Nasser; Robert L
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Application NumberUS10/912,721Publication NumberTime in Patent Office1,910 DaysField of SearchNoneUS Class Current600/500CPC Class CodesA61B 2560/0261 using hydrostatic pressureA61B 5/02028 Determining haemodynamic pa...A61B 5/0205 Simultaneously evaluating b...A61B 5/02055 Simultaneously evaluating b...A61B 5/021 Measuring pressure in heart...A61B 5/02125 of pulse wave propagation timeA61B 5/0285 Measuring or recording phas...A61B 5/029 Measuring or recording bloo...A61B 5/14532 for measuring glucose, e.g....A61B 5/14539 for measuring pHA61B 5/14546 for measuring analytes not ...A61B 5/14551 for measuring blood gasesA61B 5/14552 Details of sensors speciall...A61B 5/25 Bioelectric electrodes ther...A61B 5/318 Heart-related electrical mo...A61B 5/6826 FingerA61B 5/6838 Clamps or clips
