Physiological Monitoring Methods

US 20150073236A1
Filed: 11/13/2014
Published: 03/12/2015
Est. Priority Date: 02/25/2009
Status: Active Grant

First Claim

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1. A method of monitoring a subject via a headset, wherein the headset includes an earbud housing that encloses at least one optical emitter, and light transmissive material at least partially external to the earbud housing that is in optical communication with the at least one optical emitter via at least one window in the earbud housing, the method comprising:

positioning the earbud housing within an ear of the subject such that the light transmissive material engages a non-ear canal region of the ear; and

delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region.

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Abstract

A monitoring device includes a housing configured to be attached to a body of a subject. An optical emitter, optical detector, and sensor for measuring motion noise are located within the housing. Light transmissive material is in optical communication with the optical emitter and detector and is configured to deliver light from the optical emitter to one or more locations of the body of the subject and to collect light external to the housing and deliver the collected light to the detector. A signal processor is configured to receive and process signals produced by the optical detector and the motion noise sensor, and to remove noise from the signals produced by the optical detector. The signal processor may generate physiological parameters for the subject such as heart rate, blood flow, blood pressure, VO_2max, heart rate variability, respiration rate, and blood gas/analyte level.

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21 Claims

1. A method of monitoring a subject via a headset, wherein the headset includes an earbud housing that encloses at least one optical emitter, and light transmissive material at least partially external to the earbud housing that is in optical communication with the at least one optical emitter via at least one window in the earbud housing, the method comprising:
- positioning the earbud housing within an ear of the subject such that the light transmissive material engages a non-ear canal region of the ear; and
  
  delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1, wherein the light transmissive material includes a lens region, and wherein delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region of the subject comprises focusing the light from the at least one optical emitter via the lens region.
  - 3. The method of claim 1, wherein the light transmissive material includes a light diffusion region, and wherein delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region of the subject comprises diffusing the light from the at least one optical emitter via the diffusion region.
  - 4. The method of claim 1, wherein the light transmissive material includes a luminescence region, and wherein delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region of the subject comprises converting at least a portion of the light to light having a different wavelength via the luminescence region.
  - 5. The method of claim 4, wherein the luminescence region comprises phosphor.
  - 6. The method of claim 1, wherein the headset includes at least one environmental sensor, and further comprising detecting and/or measuring environmental conditions in a vicinity of the subject via the at least one environmental sensor.
  - 7. The method of claim 6, wherein the headset includes a transmitter, and further comprising transmitting signals produced by the at least one environmental sensor to a remote device via the transmitter.

8. A method of monitoring a subject via a headset, wherein the headset includes an earbud housing that encloses at least one optical detector, and light transmissive material at least partially external to the earbud housing that is in optical communication with the at least one optical detector via at least one window in the earbud housing, the method comprising:
- positioning the earbud housing within an ear of the subject such that the light transmissive material engages a non-ear canal region of the ear; and
  
  collecting light external to the earbud housing and delivering the collected light through the at least one window to the at least one optical detector via the light transmissive material.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
- - 9. The method of claim 8, wherein the light transmissive material includes a lens region, and wherein delivering the collected light through the at least one window to the at least one optical detector comprises focusing the collected light via the lens region.
  - 10. The method of claim 8, wherein the headset includes at least one environmental sensor, and further comprising detecting and/or measuring environmental conditions in a vicinity of the subject via the at least one environmental sensor.
  - 11. The method of claim 8, wherein the headset includes a transmitter, and further comprising transmitting signals produced by the at least one optical detector to a remote device via the transmitter.
  - 12. The method of claim 10, wherein the headset includes a transmitter, and further comprising transmitting signals produced by the at least one environmental sensor to a remote device via the transmitter.
  - 13. The method of claim 8, wherein the headset includes a motion sensor and a signal processor, and further comprising:
    - measuring motion of the subject via the motion sensor; and
      
      processing signals produced by the at least one optical detector, via the signal processor, to selectively remove effects from subject motion.
  - 14. The method of claim 8, wherein the headset includes a signal processor, and further comprising executing an adaptive filter algorithm via the signal processor to remove noise from signals produced by the at least one optical detector.
  - 15. The method of claim 8, wherein the headset includes a motion sensor and a signal processor, and further comprising:
    - measuring motion of the subject via the motion sensor; and
      
      processing signals produced by the at least one optical detector and the motion sensor to generate a digital output string, wherein the digital output string includes a plurality of physiological and motion-related information.

16. A method of monitoring a subject via a headset, wherein the headset includes a housing that encloses at least one optical emitter and at least one optical detector, and light transmissive material at least partially external to the housing that is in optical communication with the at least one optical emitter and the at least one optical detector via at least one window in the housing, the method comprising:
- positioning the housing at an ear of the subject such that the light transmissive material engages a non-ear canal region of the ear;
  
  delivering light from the at least one optical emitter through the at least one window and into the non-ear canal region via the light transmissive material; and
  
  collecting light external to the housing and delivering the collected light through the at least one window to the at least one optical detector via the light transmissive material.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. The method of claim 16, wherein the headset includes a transmitter, and further comprising transmitting signals produced by the at least one optical detector to a remote device via the transmitter.
  - 18. The method of claim 16, wherein the headset includes a motion sensor and a signal processor, and further comprising:
    - measuring motion of the subject via the motion sensor; and
      
      processing signals produced by the at least one optical detector, via the signal processor, to selectively remove effects from subject motion.
  - 19. The method of claim 16, wherein the headset includes a signal processor, and further comprising executing an adaptive filter algorithm via the signal processor to remove noise from signals produced by the at least one optical detector.
  - 20. The method of claim 16, wherein the headset includes a motion sensor and a signal processor, and further comprising:
    - measuring motion of the subject via the motion sensor; and
      
      processing signals produced by the at least one optical detector and the motion sensor to generate a digital output string, wherein the digital output string includes a plurality of physiological and motion-related information.
  - 21. The method of claim 16, wherein the housing is an earbud housing, and wherein positioning the housing at an ear of the subject comprises positioning the earbud housing within the ear such that the light transmissive material engages the non-ear canal region of the ear.

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Current Assignee
Valencell, Inc.
Original Assignee
Valencell, Inc.
Inventors
LeBoeuf, Steven Francis, Aumer, Michael Edward, Tucker, Jesse Berkley

Granted Patent

US 9,289,135 B2
Time in Patent Office

Days
Field of Search
US Class Current

600/301
CPC Class Codes

A61B 2560/0242   adapted to measure environm...

A61B 2560/0425   Ergonomically shaped housin...

A61B 2560/0443   Modular apparatus

A61B 2562/0219   Inertial sensors, e.g. acce...

A61B 2562/0233   Special features of optical...

A61B 5/00   Measuring for diagnostic pu...

A61B 5/0013   Medical image data A61B1/00...

A61B 5/002   Monitoring the patient usin...

A61B 5/0022   Monitoring a patient using ...

A61B 5/0024   for multiple sensor units a...

A61B 5/0059   using light, e.g. diagnosis...

A61B 5/0082   adapted for particular medi...

A61B 5/0084   for introduction into the b...

A61B 5/01   Measuring temperature of bo...

A61B 5/0205   Simultaneously evaluating b...

A61B 5/02055   Simultaneously evaluating b...

A61B 5/021   Measuring pressure in heart...

A61B 5/024   Detecting, measuring or rec...

A61B 5/02405   Determining heart rate vari...

A61B 5/02416   using photoplethysmograph s...

A61B 5/02427 : Details of sensor

A61B 5/02433 : for infrared radiation

A61B 5/026 : Measuring blood flow A61B3/...

A61B 5/0261 : using optical means, e.g. i...

A61B 5/0295 : using plethysmography, i.e....

A61B 5/0816 : Measuring devices for exami...

A61B 5/091 : Measuring volume of inspire...

A61B 5/11 : Measuring movement of the e...

A61B 5/1107 : Measuring contraction of pa...

A61B 5/1118 : Determining activity level

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

A61B 5/1455 : using optical sensors, e.g....

A61B 5/14551 : for measuring blood gases

A61B 5/165 : Evaluating the state of min...

A61B 5/369 : Electroencephalography [EEG...

A61B 5/411 : Detecting or monitoring all...

A61B 5/415 : the glands, e.g. tonsils, a...

A61B 5/418 : lymph vessels, ducts or nodes

A61B 5/4812 : Detecting sleep stages or c...

A61B 5/4845 : Toxicology, e.g. by detecti...

A61B 5/4848 : Monitoring or testing the e...

A61B 5/486 : Bio-feedback A61B5/375 take...

A61B 5/4866 : Evaluating metabolism A61B5...

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

A61B 5/4884 : inducing physiological or p...

A61B 5/6803 : Head-worn items, e.g. helme...

A61B 5/6815 : Ear

A61B 5/6816 : Ear lobe

A61B 5/6817 : Ear canal

A61B 5/6819 : Nose

A61B 5/6826 : Finger

A61B 5/6838 : Clamps or clips

A61B 5/7207 : of noise induced by motion ...

A61B 5/721 : using a separate sensor to ...

A61B 5/7214 : using signal cancellation, ...

A61B 5/7221 : Determining signal validity...

A61B 5/725 : using specific filters ther...

A61B 5/7278 : Artificial waveform generat...

A61B 5/7282 : Event detection, e.g. detec...

A61B 5/742 : using visual displays A61B5...

A61B 5/7475 : User input or interface mea...

G02B 6/0001 : specially adapted for light...

G16H 20/30 : relating to physical therap...

G16H 30/40 : for processing medical imag...

G16H 40/63 : for local operation

G16H 40/67 : for remote operation

G16H 50/20 : for computer-aided diagnosi...

H04R 1/028 : associated with devices per...

H04R 1/105 : Earpiece supports, e.g. ear...

H04R 1/1091 : Details not provided for in...

Y02A 90/10 : Information and communicati...

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Physiological Monitoring Methods

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

6 Citations

21 Claims

Specification

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Physiological Monitoring Methods

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

6 Citations

21 Claims

Specification

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Use Cases

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Others