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Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia.

Publication ,  Journal Article
Howe, CA; MacLeod, DB; Wainman, L; Oliver, SJ; Ainslie, PN
Published in: Chest
October 2020

BACKGROUND: Pulmonary gas exchange efficiency, determined by the alveolar-to-arterial Po2 difference (A-aDo2), progressively worsens during exercise at sea-level; this response is further elevated during exercise in hypoxia. Traditionally, pulmonary gas exchange efficiency is assessed through measurements of ventilation and end-tidal gases paired with direct arterial blood gas (ABG) sampling. Because these measures have a number of caveats, particularly invasive blood sampling, the development of new approaches for the noninvasive assessment of pulmonary gas exchange is needed. RESEARCH QUESTION: Is a noninvasive method of assessing pulmonary gas exchange valid during rest and exercise in acute hypoxia? STUDY DESIGN AND METHODS: Twenty-five healthy participants (10 female) completed a staged maximal exercise test on a cycle ergometer in a hypoxic chamber (Fio2 = 0.11). Simultaneous ABGs via a radial arterial catheter and noninvasive gas-exchange measurements (AGM100) were obtained in 2-minute intervals. Noninvasive gas exchange, termed the O2 deficit, was calculated from the difference between the end-tidal and the calculated Pao2 (via pulse oximetry and corrected for the Bohr effect by using the end-tidal Pco2). Noninvasive O2 deficit was compared with the traditional alveolar to arterial oxygen difference (A-aDo2), using the traditional Riley analysis. RESULTS: Under conditions of rest at room air, hypoxic rest, and hypoxic exercise, strong correlations between the calculated gPao2 and directly measured Pao2 (R2 = 0.97; P < .001; mean bias = 1.70 mm Hg) were observed. At hypoxic rest and exercise, strong relationships between the estimated and directly measured Pao2 (R2 = 0.68; P < .001; mean bias = 1.01 mm Hg) and O2 deficit with the traditional A-aDo2 (R2 = 0.70; P < .001; mean bias = 5.24 mm Hg) remained. INTERPRETATIONS: Our findings support the use of a noninvasive measure of gas exchange during acute hypoxic exercise in heathy humans. Further studies are required to determine whether this approach can be used clinically as a tool during normoxic exercise in patients with preexisting impairments in gas exchange efficiency.

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Published In

Chest

DOI

EISSN

1931-3543

Publication Date

October 2020

Volume

158

Issue

4

Start / End Page

1644 / 1650

Location

United States

Related Subject Headings

  • Young Adult
  • Respiratory System
  • Respiratory Function Tests
  • Pulmonary Gas Exchange
  • Male
  • Hypoxia
  • Humans
  • Female
  • Exercise
  • Adult
 

Citation

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ICMJE
MLA
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Howe, C. A., MacLeod, D. B., Wainman, L., Oliver, S. J., & Ainslie, P. N. (2020). Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia. Chest, 158(4), 1644–1650. https://doi.org/10.1016/j.chest.2020.04.017
Howe, Connor A., David B. MacLeod, Liisa Wainman, Samuel J. Oliver, and Philip N. Ainslie. “Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia.Chest 158, no. 4 (October 2020): 1644–50. https://doi.org/10.1016/j.chest.2020.04.017.
Howe CA, MacLeod DB, Wainman L, Oliver SJ, Ainslie PN. Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia. Chest. 2020 Oct;158(4):1644–50.
Howe, Connor A., et al. “Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia.Chest, vol. 158, no. 4, Oct. 2020, pp. 1644–50. Pubmed, doi:10.1016/j.chest.2020.04.017.
Howe CA, MacLeod DB, Wainman L, Oliver SJ, Ainslie PN. Validation of a Noninvasive Assessment of Pulmonary Gas Exchange During Exercise in Hypoxia. Chest. 2020 Oct;158(4):1644–1650.

Published In

Chest

DOI

EISSN

1931-3543

Publication Date

October 2020

Volume

158

Issue

4

Start / End Page

1644 / 1650

Location

United States

Related Subject Headings

  • Young Adult
  • Respiratory System
  • Respiratory Function Tests
  • Pulmonary Gas Exchange
  • Male
  • Hypoxia
  • Humans
  • Female
  • Exercise
  • Adult