Detection of parasitic signals during pulsoxymetric measurement

US 6,181,959 B1
Filed: 03/25/1999
Issued: 01/30/2001
Est. Priority Date: 04/01/1996
Status: Expired due to Fees

First Claim

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1. A method for detecting spurious signals caused by movements in the pulse oximetric measurement of arterial oxygen saturation, comprising the steps of:

emitting light into a test specimen;

measuring the intensity of the light emerging from the test specimen by at least two receptors, each receptor then generating a corresponding signal having a DC component, whereby at least two signals are generated;

normalizing said at least two signals to equal levels of their DC components, thereby resulting in at least two normalized signals;

calculating the difference between said at least two normalized signals as a difference signal having an amplitude; and

analyzing said amplitude of said difference signal to detect spurious signals.

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Abstract

In the proposed method for detecting spurious signals caused by movements of the patient or his environment in the pulse oximetric measurement of the arterial oxygen saturation, the intensity of the light emerging from the test specimen is measured by two photodiodes (7, 8). The signals (S₁, S₂) generated at these photodiodes (7, 8) are normalized to equal levels of their DC components. Finally, to detect spurious signals caused by movements, the differences (ΔS_n) of these normalized signals (S_1n, S_2n) are formed.

333 Citations

15 Claims

1. A method for detecting spurious signals caused by movements in the pulse oximetric measurement of arterial oxygen saturation, comprising the steps of:
- emitting light into a test specimen;
  
  measuring the intensity of the light emerging from the test specimen by at least two receptors, each receptor then generating a corresponding signal having a DC component, whereby at least two signals are generated;
  
  normalizing said at least two signals to equal levels of their DC components, thereby resulting in at least two normalized signals;
  
  calculating the difference between said at least two normalized signals as a difference signal having an amplitude; and
  
  analyzing said amplitude of said difference signal to detect spurious signals.
- View Dependent Claims (2, 3)
- - 2. The method according to claim 1, wherein the analyzing step includes calculating a ratio of said amplitude of said difference signal to the amplitude of one of said at least two normalized signals, said ratio being used as a measure of the relevance of the spurious signals caused by movements with respect to their influence on the precision of the pulse oximetric measurement of the arterial oxygen saturation.
  - 3. The method according to claims 1 or 2, wherein the normalizing step includes calculating the logarithm of each of said at least two signals and removing the DC component of each logarithmized signal by a high pass filter.

4. A pulse oximeter, comprising:
- a sensor including a transmitter part and a receiver part, said transmitter part having two light emitting diodes which emit light of differing wavelengths, said receiver part having at least two photodiodes which are offset to different sides of said receiver part relative to a longitudinal center line of said receiver part, said at least two photodiodes facing said transmitter part, each of said at least two photodiodes generating a corresponding signal in response to light received, whereby at least two signals are generated; and
  
  a control and evaluating part which subtracts said at least two signals from one another, to detect spurious signals caused by movement.
- View Dependent Claims (5, 6)
- - 5. A pulse oximeter according to claim 4, wherein said sensor is designed in a clamp-type fashion, said transmitter part being disposed on a first limb of said clamp and said receiver part being disposed on a second limb of said clamp.
  - 6. A pulse oximeter according to claim 4, wherein said transmitter part and said receiver part are disposed on a flexible substrate which can be applied to a body part of a patient.

7. A pulse oximeter, comprising:
- emitting means for emitting light into a test specimen;
  
  at least two measuring means, each of said at least two measuring means measuring the intensity of the light emerging from the test specimen and generating a signal having a DC component in response to the light, whereby at least two signals are generated;
  
  normalizing means for normalizing said at least two signals to equal levels of their DC components, thereby resulting in at least two normalized signals;
  
  calculating means for calculating the difference between said at least two normalized signals as a difference signal having an amplitude; and
  
  analyzing means for analyzing said amplitude of said difference signal to detect spurious signals caused by movement.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. A pulse oximeter according to claim 7, wherein said emitting means includes two light emitting diodes which emit light of differing wavelengths.
  - 9. A pulse oximeter according to claim 8, wherein one of said light emitting diodes emits red light, and the other of said light emitting diodes emits infrared light.
  - 10. A pulse oximeter according to claim 7, wherein said at least two measuring means includes at least two photodiodes.
  - 11. A pulse oximeter according to claim 7, wherein said normalizing means includes
12. A pulse oximeter according to claim 7, wherein said calculating means includes an amplifier.

13. A method for detecting spurious signals caused by movements in the pulse oximetric measurement of arterial oxygen saturation, comprising the steps of:
- emitting light into a test specimen;
  
  measuring the intensity of the light emerging from the test specimen by at least two receptors, each receptor then generating a corresponding signal having a DC component, whereby at least two signals are generated;
  
  normalizing said at least two signals to equal levels of their DC components, thereby resulting in at least two normalized signals, said step of normalizing including calculating the logarithm of each of said at least two signals and removing the DC component of each logarithmized signal by a high pass filter;
  
  calculating the difference between said at least two normalized signals as a difference signal having an amplitude; and
  
  analyzing said amplitude of said difference signal to detect spurious signals.
- View Dependent Claims (14)
- - 14. The method according to claim 13, wherein the analyzing step includes calculating a ratio of said amplitude of said difference signal to the amplitude of one of said at least two normalized signals, said ratio being used as a measure of the relevance of the spurious signals caused by movements with respect to their influence on the precision of the pulse oximetric measurement of the arterial oxygen saturation.

15. A pulse oximeter, comprising:
- emitting means for emitting light into a test specimen;
  
  at least two measuring means, each of said at least two measuring means measuring the intensity of the light emerging from the test specimen and generating a signal having a DC component in response to the light, whereby at least two signals are generated;
  
  normalizing means for normalizing said at least two signals to equal levels of their DC components, said normalizing means including at least two amplifiers, each amplifier receiving a corresponding one of said at least two signals and calculating the logarithm of said corresponding signal, thereby resulting in at least two logarithmized signals, and at least two high pass filters, each high pass filter receiving a corresponding one of said at least two logarithmized signals and removing the DC component of said corresponding logarithmized signal, thereby resulting in at least two normalized signals;
  
  calculating means for calculating the difference between said at least two normalized signals as a difference signal having an amplitude; and
  
  analyzing means for analyzing said amplitude of said difference signal to detect spurious signals caused by movement.

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Current Assignee
Radiometer Basel AG (Danaher Corporation)
Original Assignee
Kontron Instruments AG
Inventors
Eberhard, Patrick, Schöllermann, Hans
Primary Examiner(s)
Winakur, Eric F.

Application Number

US09/155,586
Time in Patent Office

677 Days
Field of Search

600/310, 600/322, 600/323, 600/330, 600/336
US Class Current

600/323
CPC Class Codes

A61B 5/02422   within occluders

A61B 5/02433   for infrared radiation

A61B 5/14552   Details of sensors speciall...

Detection of parasitic signals during pulsoxymetric measurement

First Claim

4 Assignments

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Abstract

333 Citations

15 Claims

Specification

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Detection of parasitic signals during pulsoxymetric measurement

First Claim

4 Assignments

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Abstract

333 Citations

15 Claims

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