Methods and devices for sensing respiration and controlling ventilator functions

US 8,770,193 B2
Filed: 04/17/2009
Issued: 07/08/2014
Est. Priority Date: 04/18/2008
Status: Active Grant

First Claim

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1. An apparatus for sensing respiration and synchronizing a ventilator to the respiration of a patient, the apparatus comprising:

at least three thermal breath sensors;

wherein a first thermal breath sensor measures temperature in an airway of the patient, a second thermal breath sensor measures temperature at or near the opening of an airway of the patient, and a third thermal breath sensor measures ambient temperature;

wherein signals from the first thermal breath sensor and the second thermal breath sensor are initially compared to a signal from the third thermal breath sensor to determine if inspired ambient air should be warmer or cooler than body temperature, and wherein the initial signal comparison defines an inspiratory phase and an expiratory phase associated with the signals from the first thermal breath sensor and the second thermal breath sensor; and

wherein the signals from the first thermal breath sensor and the second thermal breath sensor are subsequently compared to each other to compensate for drift and artifacts, and wherein the subsequent signal comparison is used to determine true patterns, phases and timing of the patient'"'"'s respiration.

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Abstract

Improved methods and devices are described for sensing the respiration pattern of a patient and controlling ventilator functions, particularly for use in an open ventilation system. An apparatus for sensing respiration and synchronizing a ventilator to the respiration of a patient is described. The apparatus may include a plurality of thermal breath sensors. At least one of the plurality of thermal breath sensors may be a heated thermal breath sensor.

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6 Claims

1. An apparatus for sensing respiration and synchronizing a ventilator to the respiration of a patient, the apparatus comprising:
- at least three thermal breath sensors;
  
  wherein a first thermal breath sensor measures temperature in an airway of the patient, a second thermal breath sensor measures temperature at or near the opening of an airway of the patient, and a third thermal breath sensor measures ambient temperature;
  
  wherein signals from the first thermal breath sensor and the second thermal breath sensor are initially compared to a signal from the third thermal breath sensor to determine if inspired ambient air should be warmer or cooler than body temperature, and wherein the initial signal comparison defines an inspiratory phase and an expiratory phase associated with the signals from the first thermal breath sensor and the second thermal breath sensor; and
  
  wherein the signals from the first thermal breath sensor and the second thermal breath sensor are subsequently compared to each other to compensate for drift and artifacts, and wherein the subsequent signal comparison is used to determine true patterns, phases and timing of the patient'"'"'s respiration.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The apparatus of claim 1, wherein the at least three thermal breath sensors have attributes selected from the group consisting of:
    - (1) the first thermal breath sensor and the second thermal breath sensor are joined in a bridge circuit;
      
      (2) at least one of the first thermal breath sensor and the second thermal breath sensor are heated to maintain a desired baseline temperature compared to ambient temperature;
      
      (3) at least one of the first thermal breath sensor and the second thermal breath sensor are heated using a heat source decoupled from the at least one of the first thermal breath sensor and the second thermal breath sensor; and
      
      (4) combinations thereof.
  - 3. The apparatus of claim 1, wherein the at least three thermal breath sensors have configurations selected from the group consisting of:
    - (1) the first thermal breath sensor and the second thermal breath sensor are in communication with spontaneous airflow and are joined in a bridge circuit, and the third thermal breath sensor is not in communication with spontaneous airflow and is a reference sensor;
      
      (2) at least one of the at least three thermal breath sensors is positioned in a conduit that is in communication with spontaneous airflow, wherein the cross-section of the conduit and sensor signal are used to determine a volumetric flow rate;
      
      (3) the first thermal breath sensor and the second thermal breath sensor are separated by a barrier to create a directionally biased signal response phase shift between the signals of the first thermal breath sensor and the second thermal breath sensor, wherein the phase shift directionality is used to determine the direction of airflow and the phase of respiration; and
      
      (4) combinations thereof.
  - 4. The apparatus of claim 1, wherein a DC shift of a signal of at least one of the at least three thermal breath sensors is controlled by (1) continually adjusting a source voltage or (2) auto-zeroing through a software feedback loop.
  - 5. The apparatus of claim 1, wherein the at least three thermal breath sensors are selected from the group consisting of:
    - thermistors;
      
      polymer based thermally responsive materials;
      
      thermally responsive materials shaped like a bead, strip or ring; and
      
      combinations thereof.
  - 6. The apparatus of claim 1, wherein a signal from one or both of the first thermal breath sensor and the second thermal breath sensor is correlated to flow, and the flow is correlated to depth of breathing, inspiratory effort, inspiratory and expiratory flow, inspiratory and expiratory volume, and patient respiratory status.

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Current Assignee
Breathe Technologies, Inc. (Baxter International Inc.)
Original Assignee
Breathe Technologies, Inc. (Baxter International Inc.)
Inventors
Wondka, Anthony D., Bryan, Robert F., Freitag, Lutz, McCall, Mark, Tran, Cuong Q.
Primary Examiner(s)
DOUGLAS, STEVEN O

Application Number

US12/988,469
Publication Number

US 20110259327A1
Time in Patent Office

1,908 Days
Field of Search

128/204.23, 128/207.14, 128/204.18, 128/204.21
US Class Current

128/204.23
CPC Class Codes

A61M 16/024   including calculation means...

A61M 16/0461   Nasoendotracheal tubes

A61M 16/0465   Tracheostomy tubes; Devices...

A61M 16/0475   having openings in the tube

A61M 16/06   Respiratory or anaesthetic ...

A61M 16/0666   Nasal cannulas or tubing de...

A61M 16/1015   using a gas flush valve, e....

A61M 16/1045   Devices for humidifying or ...

A61M 16/1055   bacterial

A61M 2016/0021   with a proportional output ...

A61M 2016/0027   pressure meter

A61M 2016/0036   in the breathing tube and u...

A61M 2202/0208   Oxygen

A61M 2202/025   Helium

A61M 2205/3368   Temperature

A61M 2205/3569   sublocal, e.g. between cons...

A61M 2205/3592   using telemetric means, e.g...

A61M 2205/36   related to heating or cooling

A61M 2205/50   with microprocessors or com...

A61M 2205/70   with testing or calibration...

A61M 2230/005 : Parameter used as control i...

A61M 2230/50 : Temperature

A61M 2230/65 : Impedance, e.g. conductivit...

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Methods and devices for sensing respiration and controlling ventilator functions

First Claim

10 Assignments

0 Petitions

Accused Products

Abstract

984 Citations

6 Claims

Specification

Solutions

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Methods and devices for sensing respiration and controlling ventilator functions

First Claim

10 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

984 Citations

6 Claims

Specification

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Solutions

Use Cases

Quick Links