Advanced pulse oximetry sensor

CAFC

US 10,470,695 B2
Filed: 12/19/2018
Issued: 11/12/2019
Est. Priority Date: 07/02/2015
Status: Active Grant

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First Claim

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1. A wrist-worn physiological monitoring device configured for placement on a user at a tissue measurement site, the device comprising:

a light emission source comprising a plurality of emitters configured to irradiate the tissue measurement site by emitting light towards the tissue measurement site, the tissue measurement site being located on a wrist of the user, the plurality of emitters configured to emit one or more wavelengths;

a plurality of detectors configured to detect the light emitted by the plurality of emitters after attenuation by a circular portion of the tissue measurement site, the plurality of detectors further configured to output at least one signal responsive to the detected light;

a processor configured to receive the at least one signal responsive to the output and determine a physiological parameter of the user; and

a light block forming an enclosing wall between the light emission source and the plurality of detectors, the light block defining the circular portion of the tissue measurement site, the light emission source arranged proximate a first side of the enclosing wall and the plurality of detectors arranged proximate a second side of the enclosing wall, the first side being different than the second side,wherein the enclosing wall prevents at least a portion of light emitted from the light emission source from being detected by the plurality of detectors without attenuation by the tissue, and wherein the plurality of detectors are arranged in an array having a spatial configuration corresponding to the circular portion of the tissue measurement site.

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Abstract

A non-invasive, optical-based physiological monitoring system is disclosed. One embodiment includes an emitter configured to emit light. A diffuser is configured to receive and spread the emitted light, and to emit the spread light at a tissue measurement site. The system further includes a concentrator configured to receive the spread light after it has been attenuated by or reflected from the tissue measurement site. The concentrator is also configured to collect and concentrate the received light and to emit the concentrated light to a detector. The detector is configured to detect the concentrated light and to transmit a signal representative of the detected light. A processor is configured to receive the transmitted signal and to determine a physiological parameter, such as, for example, arterial oxygen saturation, in the tissue measurement site.

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30 Claims

1. A wrist-worn physiological monitoring device configured for placement on a user at a tissue measurement site, the device comprising:
- a light emission source comprising a plurality of emitters configured to irradiate the tissue measurement site by emitting light towards the tissue measurement site, the tissue measurement site being located on a wrist of the user, the plurality of emitters configured to emit one or more wavelengths;
  
  a plurality of detectors configured to detect the light emitted by the plurality of emitters after attenuation by a circular portion of the tissue measurement site, the plurality of detectors further configured to output at least one signal responsive to the detected light;
  
  a processor configured to receive the at least one signal responsive to the output and determine a physiological parameter of the user; and
  
  a light block forming an enclosing wall between the light emission source and the plurality of detectors, the light block defining the circular portion of the tissue measurement site, the light emission source arranged proximate a first side of the enclosing wall and the plurality of detectors arranged proximate a second side of the enclosing wall, the first side being different than the second side,wherein the enclosing wall prevents at least a portion of light emitted from the light emission source from being detected by the plurality of detectors without attenuation by the tissue, and wherein the plurality of detectors are arranged in an array having a spatial configuration corresponding to the circular portion of the tissue measurement site.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 25, 26, 27)
- - 2. The physiological monitoring device of claim 1, further comprising a display configured to present information related to the determined physiological parameter to the user.
  - 3. The physiological monitoring device of claim 2, wherein the display is a touch-screen display.
  - 4. The physiological monitoring device of claim 1, wherein the enclosing wall of the light block is a circular wall.
  - 5. The physiological monitoring device of claim 1, wherein, when the physiological monitoring device is worn by the user at the tissue measurement site, the plurality of emitters are arranged in a reflectance measurement configuration on a first side of the tissue measurement site, and wherein the plurality of detectors are arranged in a reflectance measurement configuration on the first side of the tissue measurement site when the physiological monitoring device is worn by the user.
  - 6. The physiological monitoring device of claim 1, further comprising a diffuser which receives, spreads, and emits the spread light, wherein the emitted spread light is directed at the tissue measurement site.
  - 7. The physiological monitoring device of claim 1, wherein the light emission source is positioned outside the enclosing wall when the physiological monitoring device is worn by the user at the tissue measurement site, and wherein the plurality of detectors are positioned inside the enclosing wall when the physiological monitoring device is worn by the user at the tissue measurement site.
  - 8. The physiological monitoring device of claim 1, wherein the physiological parameter is selected from the group consisting of arterial oxygen saturation, glucose, and pulse rate.
  - 25. The physiological monitoring device of claim 1, wherein the plurality of emitters comprise one or more light emitting diodes (LEDs), and wherein the one or more wavelengths comprises at least an infrared wavelength.
  - 26. The physiological monitoring device of claim 1, wherein the plurality of detectors comprise a plurality of photodiodes.
  - 27. The physiological monitoring device of claim 1, further comprising a light concentrator configured to direct the attenuated, reflected light to the plurality of detectors.

9. A method of measuring a physiological parameter in a user'"'"'s blood, the method comprising:
- irradiating a tissue measurement site by emitting, from a plurality of emitters of a light emission source of a physiological monitoring device, light of one or more wavelengths toward the tissue measurement site, the tissue measurement site located on a wrist of the user;
  
  detecting, with a plurality of detectors, the light emitted by the plurality of emitters of the light emission source after attenuation through a circular portion of the tissue measurement site; and
  
  providing a cylindrical light block forming an enclosing wall between the light emission source and the plurality of detectors, the light emission source arranged proximate a first side of the enclosing wall and the plurality of detectors arranged proximate a second side of the enclosing wall, the first side being different than the second side, wherein the enclosing wall prevents at least a portion of light emitted from the light emission source from being detected by the plurality of detectors without attenuation by the tissue measurement site, and wherein the plurality of detectors are arranged in an array having a circular spatial configuration, the circular spatial configuration arranged to receive said attenuated light;
  
  outputting, from the plurality of detectors, at least one signal responsive to the detected light;
  
  receiving, by a processor, the outputted at least one signal responsive to the detected light; and
  
  processing, by the processor, the received at least one signal responsive to the detected light to determine a physiological parameter.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 10. The method of claim 9, wherein the light emission source is positioned outside the enclosing wall when the physiological monitoring device is worn by the user at the tissue measurement site, and wherein the plurality of detectors are positioned inside the enclosing wall when the physiological monitoring device is worn by the user at the tissue measurement site.
  - 11. The method of claim 9, further comprising presenting, with a display of the physiological monitoring device, information related to the determined physiological parameter to the user.
  - 12. The method of claim 11, wherein the display is a touch-screen display.
  - 13. The method of claim 9, wherein when the physiological monitoring device is worn by the user at the tissue measurement site, the plurality of emitters are arranged in a reflectance measurement configuration on a first side of the tissue measurement site, and wherein the plurality of detectors are arranged in a reflectance measurement configuration on the first side of the tissue measurement site when the physiological monitoring device is worn by the user.
  - 14. The method of claim 9, further comprising spreading, with a diffuser, the emitted light and emitting the spread light from the diffuser to the tissue measurement site.
  - 15. The method of claim 9, wherein the physiological parameter is indicative of at least one of pulse rate, perfusion index, oxygen content, and total hemoglobin.
  - 16. The method of claim 9, wherein the plurality of emitters comprise one or more light emitting diodes (LEDs), and wherein the one or more wavelengths comprises at least an infrared wavelength.
  - 17. The method of claim 9, wherein the plurality of detectors comprise a plurality of photodiodes.
  - 18. The method of claim 9, further comprising, directing, with a light concentrator, the light emitted by the light emission source after attenuation through tissue of the user at the tissue measurement site to the plurality of detectors.

19. A wrist-worn physiological monitoring sensor comprising:
- a light emission source comprising a plurality of optical sources configured to irradiate a tissue measurement site by emitting light towards the tissue measurement site on a user, the tissue measurement site located on a wrist of the user, the plurality of optical sources configured to emit one or more wavelengths;
  
  a plurality of detectors configured to detect the light emitted by the plurality of emitters after attenuation by a circular portion of the tissue measurement site, the plurality of detectors further configured to output at least one signal responsive to the detected light;
  
  a processor configured to receive the outputted at least one signal responsive to the detected light and determine a physiological parameter indicative of a state or trend of wellness of the user; and
  
  a light block forming an enclosing wall between the light emission source and the plurality of detectors, the light emission source arranged proximate a first side of the enclosing wall and the plurality of detectors arranged proximate a second side of the enclosing wall, the first side being different than the second side, the light block forming a light isolation chamber defined by the enclosing wall, wherein the enclosing wall prevents at least a portion of light emitted from the light emission source from being detected by the plurality of detectors without attenuation by the tissue, and wherein the plurality of detectors are arranged in an array having a circular spatial configuration, the circular spatial configuration arranged to receive said attenuated light.
- View Dependent Claims (20, 21, 22, 23, 24, 28, 29, 30)
- - 20. The physiological monitoring sensor of claim 19, wherein the light emission source is located outside the enclosing wall when the physiological monitoring sensor is worn by the user at the tissue measurement site, and wherein the plurality of detectors are arranged inside the enclosing wall when the physiological monitoring sensor is worn by the user at the tissue measurement site.
  - 21. The physiological monitoring sensor of claim 19, further comprising a diffuser which receives, spreads, and emits the spread light, wherein the emitted spread light is directed at the tissue measurement site.
  - 22. The physiological monitoring sensor of claim 19, further comprising a display configured to present information related to the determined physiological parameter to the user.
  - 23. The physiological monitoring sensor of claim 22, wherein the display is a touch-screen display.
  - 24. The physiological monitoring sensor of claim 19, wherein when the physiological monitoring sensor is worn by the user at the tissue measurement site, the plurality of optical sources are arranged in a reflectance measurement configuration on a first side of the tissue measurement site, and wherein the plurality of detectors are arranged in a reflectance measurement configuration on the first side of the tissue measurement site when the physiological monitoring sensor is worn by the user.
  - 28. The physiological monitoring sensor of claim 19, wherein the plurality of optical sources comprise one or more light emitting diodes (LEDs), and wherein the one or more wavelengths comprises at least an infrared wavelength.
  - 29. The physiological monitoring sensor of claim 19, wherein the plurality of detectors comprise a plurality of photodiodes.
  - 30. The physiological monitoring sensor of claim 19, further comprising a light concentrator configured to direct the attenuated, reflected light to the plurality of detectors.

Specification

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Litigation Data

Current Assignee
Masimo Corporation
Original Assignee
Masimo Corporation
Inventors
Al-Ali, Ammar
Primary Examiner(s)
Winakur, Eric F
Assistant Examiner(s)
Fardanesh, Marjan

Application Number

US16/226,249
Publication Number

US 20190117140A1
Time in Patent Office

328 Days
Field of Search

None
US Class Current
CPC Class Codes

A61B 2562/04   Arrangements of multiple se...

A61B 2562/043   in a linear array

A61B 5/0002   Remote monitoring of patien...

A61B 5/02416   using photoplethysmograph s...

A61B 5/14532   for measuring glucose, e.g....

A61B 5/14546   for measuring analytes not ...

A61B 5/14552   Details of sensors speciall...

A61B 5/4875   Hydration status, fluid ret...

A61B 5/6826   Finger

A61B 5/7278   Artificial waveform generat...

A61B 5/742   using visual displays A61B5...

Advanced pulse oximetry sensor

First Claim

1 Assignment

2 Petitions

Accused Products

Abstract

Citations

30 Claims

Specification

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Advanced pulse oximetry sensor

First Claim

1 Assignment

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2 Petitions

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Accused Products

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Abstract

Citations

30 Claims

Specification

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Solutions

Use Cases

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