Pulse oximetry system and techniques for deriving cardiac and breathing parameters from extra-thoracic blood flow measurements
First Claim
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1. A non-invasive pulse oximetry system comprising:
- a controller;
a light source coupled to the controller and emitting at least two light signals having distinct wavelengths adapted to be directed at an appendage of a subject; and
a light receiver coupled to the controller and adapted to be mounted adjacent to said appendage and which receives said light signals;
wherein the controller of the pulse oximetry system derives at least a heart rate value, a blood oxygenation value, a breath rate and a breath distention value from said received light signals, wherein the breath distention value is associated with the height of the blood flow change in the appendage derived from the endpoints of the breathing effort from inhale to exhale, and wherein the system derives the breath rate that is calculated by filtering the received signals in the frequency domain to remove the heart rate component thereof, then reconstructing a time domain breath signal in the absence of the heart rate components and wherein the breath rate is calculated using the reconstructed breath signal.
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Abstract
Medical devices and techniques derive breath rate, breath distention, and pulse distention measurements of a subject from a pulse oximeter system coupled to a subject. These parameters, together with the conventional physiologic parameters obtained from a pulse oximeter system, can be used to assist in controlling the ventilation levels and the anesthesia levels of the subject. The development has human applications and particular applications for animal research.
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Citations
16 Claims
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1. A non-invasive pulse oximetry system comprising:
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a controller; a light source coupled to the controller and emitting at least two light signals having distinct wavelengths adapted to be directed at an appendage of a subject; and a light receiver coupled to the controller and adapted to be mounted adjacent to said appendage and which receives said light signals; wherein the controller of the pulse oximetry system derives at least a heart rate value, a blood oxygenation value, a breath rate and a breath distention value from said received light signals, wherein the breath distention value is associated with the height of the blood flow change in the appendage derived from the endpoints of the breathing effort from inhale to exhale, and wherein the system derives the breath rate that is calculated by filtering the received signals in the frequency domain to remove the heart rate component thereof, then reconstructing a time domain breath signal in the absence of the heart rate components and wherein the breath rate is calculated using the reconstructed breath signal. - View Dependent Claims (2, 3)
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4. A non-invasive pulse oximetry system comprising:
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A controller; A light source coupled to the controller and adapted to be attached to an external appendage of a subject and configured to emit at least two distinct wavelengths of light directed at the appendage; and A receiver coupled to the controller and adapted to be attached to the external appendage of a subject and configured to receive the light from the light source that has been directed at the appendage and generating received signals there from, wherein the controller of the pulse oximetry system derives a breath rate of the subject from the received signals, wherein the breath rate is calculated by transforming the received signals to the frequency domain, filtering the received signals to remove heart rate components thereof in the frequency domain, then reconstructing a breath signal in the time domain in the absence of the heart rate components and wherein the breath rate is calculated using the reconstructed breath signal in the time domain. - View Dependent Claims (5, 6, 7)
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8. A non-invasive pulse oximetry system for a small mammal comprising:
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A controller; A light source coupled to the controller and adapted to be attached to an external appendage of a small mammal and configured to emit at least two distinct wavelengths of light directed at the appendage; and A receiver coupled to the controller and adapted to be attached to the external appendage of a subject small mammal and configured to receive the light from the light source that has been directed at the appendage and generating received signals there from, wherein the controller of the pulse oximetry system derives a breath rate of the subject from the received signals and wherein the system calculates arterial pulse distention measurements, wherein the arterial pulse distention measurements are associated with the height of the blood flow change in the appendage derived from the endpoints of the cardiac effort between systole and diastole, and wherein the arterial pulse distention measurements is derived from a plurality of ratios of peak and valley ratios of the received signals. - View Dependent Claims (9, 10, 11)
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12. A non-invasive pulse oximetry system comprising:
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A controller; A light source coupled to the controller and adapted to be attached to an external appendage of a subject and configured to emit at least two distinct wavelengths of light directed at the appendage; and A receiver coupled to the controller and adapted to be attached to the external appendage of a subject and configured to receive the light from the light source that has been directed at the appendage and generating received signals there from, wherein the controller of the pulse oximetry system derives at least one physiologic parameter of the subject from the received signals by performing an FFT on at least one time domain signal to generate a frequency domain representation of the at least one time domain signal, filtering the transformed time domain signal in the frequency domain, performing an inverse FFT on the filtered FFT signal to form a filtered time domain signal, and calculating the at least one physiologic parameter by measuring the filtered time domain signal, wherein the system calculates arterial breath distention measurements of the subject wherein the breath distention measurements are associated with the height of the blood flow change in the appendage derived from the endpoints of the breathing effort from inhale to exhale. - View Dependent Claims (13, 14, 15, 16)
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Specification