Pulse oximeter sensor optimized for low saturation
First Claim
1. A method for using a pulse oximeter to measure blood oxygen saturation, comprising the steps of:
- providing a sensor and a pulse oximeter;
selecting a light source for said sensor;
optimizing a wavelength spectrum of said light source for an oxygen saturation reading less than 80 percent;
placing said sensor on a patient; and
determining said blood oxygen saturation using said sensor and said pulse oximeter.
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Abstract
A pulse oximeter sensor with a light source optimized for low oxygen saturation ranges and for maximizing the immunity to perturbation induced artifact. Preferably, a red and an infrared light source are used, with the red light source having a mean wavelength between 700-790 nm. The infrared light source can have a mean wavelength as in prior art devices used on adults. The sensor of the present invention is further optimized by arranging the spacing between the light emitter and light detectors to minimize the sensitivity to perturbation induced artifact. The present invention optimizes the chosen wavelengths to achieve a closer matching of the absorption and scattering coefficient products for the red and IR light sources. This optimization gives robust readings in the presence of perturbation artifacts including force variations, tissue variations and variations in the oxygen saturation itself.
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Citations
14 Claims
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1. A method for using a pulse oximeter to measure blood oxygen saturation, comprising the steps of:
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providing a sensor and a pulse oximeter; selecting a light source for said sensor; optimizing a wavelength spectrum of said light source for an oxygen saturation reading less than 80 percent; placing said sensor on a patient; and determining said blood oxygen saturation using said sensor and said pulse oximeter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for using a pulse oximeter to measure blood oxygen saturation in a fetus, comprising the steps of providing a sensor and a pulse oximeter;
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selecting a red and an infrared light source for said sensor, said infrared light source having a wavelength spectrum useful for measuring oxygen saturation in an adult; optimizing a wavelength spectrum of said red light source to a mean wavelength between 700 and 790 nanometers for an oxygen saturation reading between 15 and 65 percent, said optimizing increasing the immunity of a measurement of blood oxygen saturation to exsanguination artifact due to pressure of said sensor against said fetus; placing said sensor on said fetus; measuring an intensity of light from said light sources at a detector after reflectance through a portion of said fetus; and determining said blood oxygen saturation using said intensity and said pulse oximeter.
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14. A method for using a pulse oximeter to measure blood oxygen saturation in a fetus, comprising the steps of providing a sensor and a pulse oximeter;
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selecting red and an infrared light source, each of said red and infrared light source having an extinction and a scattering coefficient for blood perfused tissue,; optimizing a wavelength spectrum of said light sources by choosing wavelengths of said red and infrared light source whose product of their extinction and scattering coefficients form first and second values, a ratio between said first and second values being between 0.5 and 2 for a majority of the oxygen saturation reading range of 0 to 65 percent; placing said sensor on said fetus; and determining said blood oxygen saturation using said sensor and said pulse oximeter.
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Specification