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The contribution of FEV1 and airflow limitation on...

Journal article

The contribution of FEV1 and airflow limitation on the intensity of dyspnea and leg effort during exercise. Insights from a real‐world cohort

Abstract

RATIONALE: The effort required to cycle and breathe intensify as power increases during incremental exercise. It is currently unclear how changes in FEV₁ in the presence or absence of airflow limitation) impacts the intensity of dyspnea and leg effort. This is clinically important as the improvement in FEV₁ is often the target for improving dyspnea. OBJECTIVES: To investigate the relationship between dyspnea (D), leg effort, power (P), and FEV₁ …

Authors

Satia I; Farooqi MAM; Cusack R; Matsuoka M; Yanqing X; Kurmi O; O’Byrne PM; Killian KJ

Journal

Physiological Reports, Vol. 8, No. 8,

Publisher

Wiley

Publication Date

April 2020

DOI

10.14814/phy2.14415

ISSN

2051-817X

Associated Experts

Imran Satia

Associate Professor, Faculty of Health Sciences

Kieran Killian

Professor Emeritus, Faculty of Health Sciences

Om Kurmi

Assistant Professor (Part-Time), Faculty of Health Sciences

Paul O'Byrne

Dean and Vice-President, Faculty of Health Sciences

Labels

Fields of Research (FoR)

32 Biomedical and Clinical Sciences 3202 Clinical Sciences 3208 Medical physiology

Sustainable Development Goals (SDG)

3 Good Health and Well Being

Medical Subject Headings (MeSH)

Cohort Studies Dyspnea Exercise Exercise Tolerance Female Forced Expiratory Volume Humans Leg Lung Male Middle Aged Respiratory Function Tests Respiratory Physiological Phenomena Retrospective Studies

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