Combination of inert gas rebreathing and multiple-breath wash-out techniques for determination of indices of ventilation inhomogeneity

US 9,999,372 B2
Filed: 12/29/2015
Issued: 06/19/2018
Est. Priority Date: 10/15/2009
Status: Active Grant

First Claim

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1. A method of determining a lung clearance index (LCI) of a test subject, said method comprising the steps of:

in a closed rebreathing assembly, rebreathing an inert tracer gas mixture having a starting concentration of an inert tracer gas until a constant concentration of the inert tracer gas is reached to wash-in the inert tracer gas, wherein the closed rebreathing assembly comprises a rebreathing bag filled with a volume of the inert tracer gas mixture corresponding to the resting tidal volume of the test subject;

performing multiple-breath wash-out until end-tidal tracer gas concentration has fallen below a predetermined fraction of the starting concentration, where the concentrations are measured by a gas analysis; and

determining the lung clearance index (LCI) by;

determining, via a processor, functional residual capacity (FRC);

determining, via the processor, cumulative expired volume (V_CE) required to clear the inert tracer gas concentration from the lungs below the predetermined fraction of the starting concentration; and

calculating, via the processor, the LCI as a ratio between V_CEand FRC.

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Abstract

The present invention discloses a method to determine the lung clearance index (LCI) or other indices of ventilation inhomogeneity of the lungs by combining two pulmonary gas exchange techniques; Inert gas rebreathing (IGR) is used for rapid wash-in of the inert tracer gas and this is followed by multiple-breath wash-out (MBW). The functional residual capacity (FRC) can either be determined from the tracer gas concentration and the gas flow inhaled and exhaled during multiple-breath wash-out or by gas analysis alone from the inert gas rebreathing. The cumulative expired volume (V_CE) required to clear the inert tracer gas from the lungs is determined from the multiple-breath wash-out, and LCI is calculated as the ratio between V_CEand FRC. The advantages of the method are i) significant reduction of required test time, ii) significant reduction of consumed gas mixture for wash-in of tracer gas, iii) potential for further reduction of the use of tracer gas, and iv) potential for more accurate determination of the FRC by gas dilution alone. Furthermore the present invention relates to a corresponding system and computer-readable medium.

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17 Claims

1. A method of determining a lung clearance index (LCI) of a test subject, said method comprising the steps of:
- in a closed rebreathing assembly, rebreathing an inert tracer gas mixture having a starting concentration of an inert tracer gas until a constant concentration of the inert tracer gas is reached to wash-in the inert tracer gas, wherein the closed rebreathing assembly comprises a rebreathing bag filled with a volume of the inert tracer gas mixture corresponding to the resting tidal volume of the test subject;
  
  performing multiple-breath wash-out until end-tidal tracer gas concentration has fallen below a predetermined fraction of the starting concentration, where the concentrations are measured by a gas analysis; and
  
  determining the lung clearance index (LCI) by;
  
  determining, via a processor, functional residual capacity (FRC);
  
  determining, via the processor, cumulative expired volume (V_CE) required to clear the inert tracer gas concentration from the lungs below the predetermined fraction of the starting concentration; and
  
  calculating, via the processor, the LCI as a ratio between V_CEand FRC.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method according to claim 1, wherein the inert tracer gas is SF₆.
  - 3. The method according to claim 1, wherein the inert tracer gas mixture is an oxygen enriched gas mixture.
  - 4. The method according to claim 1, wherein the gas analysis is performed by a photoacoustic spectroscopy (PAS) sensitive gas analyzer.
  - 5. The method according to claim 1, wherein the FRC is determined from the tracer gas concentration and a gas flow inhaled and exhaled during multiple-breath wash-out.

6. A system adapted to determine a lung clearance index (LCI) of the lungs of a test subject, said system comprising:
- a closed rebreathing setup configured to allow a test subject to rebreathe an inert tracer gas mixture having a starting concentration of an inert tracer gas until a constant concentration of the inert tracer gas is reached to wash-in the inert tracer gas during a rebreathing period, wherein the closed rebreathing setup comprises at least a rebreathing bag prefilled with a volume of the inert tracer gas mixture corresponding to the resting tidal volume of said test subject to rebreathe to and from during the rebreathing period;
  
  at least one gas analyzer for obtaining fractional concentration of said inert tracer gas inhaled and exhaled by said test subject;
  
  a flowmeter for monitoring gas flow inhaled and exhaled by said test subject; and
  
  a non-transitory computer readable medium having stored therein instructions for causing a processing unit of the system to execute said instructions, comprising;
  
  determining, via said processing unit, the LCI of the lungs of the test subject by determining functional residual capacity (FRC) and using said gas flow to determine, via said processing unit, cumulative expired volume (V_CE) required to clear said inert tracer gas concentration from the lungs below a predetermined fraction of the starting concentration, wherein LCI is determined as a ratio between V_CEand FRC.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 7. The system according to claim 6, wherein the inert tracer gas is SF₆.
  - 8. The system according to claim 6, wherein the inert tracer gas mixture is an oxygen enriched gas mixture.
  - 9. The system according to claim 6, wherein the at least one gas analyzer comprises a photoacoustic spectroscopy (PAS) sensitive gas analyzer.
  - 10. The system according to claim 6, wherein the FRC is determined from the tracer gas concentration and the gas flow inhaled and exhaled during multiple-breath wash-out.
  - 11. The system according to claim 6, wherein the FRC is determined by gas analysis alone from the inert gas rebreathing.
  - 12. The system according to claim 6, wherein the closed rebreathing setup further comprises a CO₂scrubber.
  - 13. The system according to claim 6, wherein the closed rebreathing setup further comprises a cylinder for containing a pressurized inert tracer gas mixture.
  - 14. The system according to claim 6, wherein the at least one gas analyzer for obtaining the fractional concentration of said inert tracer gas inhaled and exhaled by said test subject comprises means for obtaining the partial pressure of said inert tracer gas.
  - 15. The system according to claim 6, wherein the closed rebreathing setup further comprises a respiration valve assembly which allows switching from breathing air to rebreathing the inert tracer gas mixture.

16. A non-transitory computer readable medium having stored therein instructions for causing a processing unit of a system switchable between an open circuit configuration and a closed rebreathing configuration to execute the determining of a lung clearance index (LCI) of a test subject through the following steps:
- initiating the flow of an inert tracer gas at a starting concentration in the closed rebreathing configuration for rebreathing wash-in of the inert tracer gas by a test subject until a constant concentration of the inert tracer gas is reached;
  
  determining when an end-tidal concentration of the inert tracer gas has fallen below a predetermined fraction of the starting concentration during multiple-breath wash-out in the open circuit configuration; and
  
  determining the lung clearance index (LCI) by;
  
  determining, via the processing unit, functional residual capacity (FRC);
  
  determining, via the processing unit, cumulative expired volume (V_CE) required to clear the inert tracer gas concentration from the lungs below the predetermined fraction of the starting concentration; and
  
  calculating, via the processing unit, the LCI as a ratio between V_CEand FRC.
- View Dependent Claims (17)
- - 17. The non-transitory computer readable medium according to claim 16, wherein the steps for determining LCI further comprise:
    - controlling, via the processing unit, a respiration valve.

Specification

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Current Assignee
IPR Holding APS
Original Assignee
IPR Holding APS
Inventors
Clemensen, Peter Christian, Nielsen, Jorgen Gronlund
Primary Examiner(s)
BERHANU, ETSUB D

Application Number

US14/982,066
Publication Number

US 20160128609A1
Time in Patent Office

903 Days
Field of Search

None
US Class Current
CPC Class Codes

A61B 5/0813   Measurement of pulmonary pa...

A61B 5/087   Measuring breath flow

A61B 5/091   Measuring volume of inspire...

A61B 5/093   the gases being exhaled int...

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

Combination of inert gas rebreathing and multiple-breath wash-out techniques for determination of indices of ventilation inhomogeneity

First Claim

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Abstract

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17 Claims

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Combination of inert gas rebreathing and multiple-breath wash-out techniques for determination of indices of ventilation inhomogeneity

First Claim

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Accused Products

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Abstract

6 Citations

17 Claims

Specification

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