Blood oximeter
First Claim
1. A blood oximeter for measuring the oxygenation and at least one other parameter of flowing blood in living tissue, comprising:
- an infrared light source configured to emit light of infrared wavelengths into the tissue;
a red laser with a laser cavity configured to emit a red laser beam into the tissue, the red laser being adapted to allow a part of the red laser beam which is scattered by the tissue to re-enter into the laser cavity;
a red laser beam sensor for measuring the light emitted from the red laser, the red laser beam sensor outputting a signal which varies in accordance with the self-mixing interferometric effect between the red laser beam and the scattered red laser beam;
a pulse oximetry photodiode configured to receive the infrared wavelength light from the infrared light source which has passed through the tissues and to receive the red laser beam which has passed through the tissue from the red laser; and
one or more processing units which receives and processes output signals from the red laser beam sensor and the pulse oximetry photodiode to determine an arterial blood oxygen concentration and the at least one other parameter.
1 Assignment
0 Petitions
Accused Products
Abstract
The invention relates to a blood oximeter for measuring the oxygenation and at least one other parameter of flowing blood in living tissue. According to the invention, the blood oximeter comprises two lightsources (2, 3) emitting light of different wavelengths into tissue, and preferably a light detector (4) for detecting a transmitted and/or reflected part of the light emitted into the tissue, wherein at least one of the light sources is a laser with a laser cavity emitting a laser beam, the laser being adapted to allow a part of the laser beam which is scattered by the tissue to re-enter into the laser cavity, and wherein a laser beam sensor (7, 8) for measuring the light emitted from the laser is provided, the laser beam sensor (7, 8), thus, obtaining a signal which varies in accordance with the self-mixing interferometric effect between the original laser beam and the scattered laser beam. Accordingly, such a blood oximeter is provided that performs well at low perfusion and which further allows for reliable measurements.
-
Citations
16 Claims
-
1. A blood oximeter for measuring the oxygenation and at least one other parameter of flowing blood in living tissue, comprising:
-
an infrared light source configured to emit light of infrared wavelengths into the tissue; a red laser with a laser cavity configured to emit a red laser beam into the tissue, the red laser being adapted to allow a part of the red laser beam which is scattered by the tissue to re-enter into the laser cavity; a red laser beam sensor for measuring the light emitted from the red laser, the red laser beam sensor outputting a signal which varies in accordance with the self-mixing interferometric effect between the red laser beam and the scattered red laser beam; a pulse oximetry photodiode configured to receive the infrared wavelength light from the infrared light source which has passed through the tissues and to receive the red laser beam which has passed through the tissue from the red laser; and one or more processing units which receives and processes output signals from the red laser beam sensor and the pulse oximetry photodiode to determine an arterial blood oxygen concentration and the at least one other parameter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A blood oximeter for measuring the oxygenation and blood pressure of flowing blood in living tissue, comprising:
-
two light sources emitting light of different wavelengths into the tissue, at least one of the light sources being a laser with a laser cavity emitting a laser beam, the laser being configured to allow a part of the laser beam which is scattered by the tissue to re-enter into the laser cavity; a laser beam sensor which measures the light emitted from the laser to obtain a signal which varies in accordance with a self-mixing interferometric effect between the original laser beam and the scattered laser beam; a force actuator adapted to press the light sources against the illuminated tissue with a pressure; a force controller that varies the pressure in time over a range at least between a pressure which permits blood flow through the tissue and a pressure which blocks the blood flow; and one or more processing units which determines the blood pressure from the signal from the laser beam sensor and the pressure applied by the force actuator. - View Dependent Claims (9, 10, 11)
-
-
12. A blood oximeter comprising:
-
an infrared laser which emits infrared laser light; an infrared beam sensor which measures the light emitted by the infrared laser using self-mixing interferometry; a first lens configured to be pressed against tissue, the first lens being optically coupled to the infrared laser to focus the infrared laser light into the tissue; an red laser which emits red laser light; an red beam sensor which measures the light emitted by the red laser using self-mixing interferometry; a second lens configured to be pressed against the tissue, the second lens being optically coupled to the red laser to focus the red laser light into the tissue; one or more processing units configured to; determine red and infrared Doppler shift spectra from the emitted light measured by the red and infrared beam sensors, the Doppler shift spectra having a pulsing part indicative of blood moving in the arteries and a non-pulsing part indicative of blood in the veins; determining blood oxygen concentration by comparing the red and infrared spectra. - View Dependent Claims (13, 14, 15, 16)
-
Specification