Changes in Plasma Bradykinin Concentration and Citric Acid Cough Threshold at High Altitude

Objective.—Altitude-related cough is a troublesome condition of unknown etiology. Inhaled tussive agents are used to quantify cough, and the citric acid cough threshold has been shown to fall on ascent to altitude. Cough can occur in patients taking angiotensin-converting enzyme inhibitors due to st...

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Published inWilderness & environmental medicine Vol. 20; no. 4; pp. 353 - 358
Main Authors Mason, Nicholas P, Petersen, Merete, Mélot, Christian, Kim, Elena V, Aldashev, Almaz, Sarybaev, Akpay, Mirrakhimov, Mirsaid M, Naeije, Robert
Format Journal Article
LanguageEnglish
Published Los Angeles, CA Elsevier Inc 01.12.2009
SAGE Publications
Elsevier Limited
Subjects
Adolescent
Adult
Altitude-related cough
Angiotensin-Converting Enzyme Inhibitors - adverse effects
bradykinin
Bradykinin - blood
BRIEF REPORT
Citric Acid - administration & dosage
Citric Acid - adverse effects
citric acid cough threshold
Cough - chemically induced
Emergency
Heart Rate
Humans
Male
Oxygen - blood
pulmonary edema
Young Adult
pulmonary edema
bradykinin
Altitude-related cough
citric acid cough threshold
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Summary:Objective.—Altitude-related cough is a troublesome condition of unknown etiology. Inhaled tussive agents are used to quantify cough, and the citric acid cough threshold has been shown to fall on ascent to altitude. Cough can occur in patients taking angiotensin-converting enzyme inhibitors due to stimulation of airway sensory receptors by increased levels of bradykinin. We hypothesized that increased levels of bradykinin could be responsible for the decrease in citric acid cough threshold on exposure to altitude and a possible etiologic factor in altitude-related cough. Methods.—Twenty healthy volunteers underwent baseline tests at 700 m before a 2-week stay at 3800 m. Angiotensin-converting enzyme activity and plasma bradykinin were measured at baseline and altitude. Citric acid cough threshold and nocturnal cough frequency were measured at baseline and throughout the 2 weeks at altitude. Results.—Citric acid cough threshold fell from 3.7 g/dL at baseline to 2.1 g/dL on the second day at 3800 m (geometric mean difference 1.8, 95% CIs 1.0–5.0, P  =  .025) and remained reduced throughout the stay at altitude. Nocturnal cough frequency was unchanged compared to baseline. Plasma bradykinin fell from 0.43 ng/mL at baseline to 0.08 ng/mL at altitude (geometric mean difference 5.7, 95% CIs 2.1–15.5, P  =  .002), but angiotensin-converting enzyme activity was unchanged (mean difference 0.06, 95% CIs –2.7–2.8, P  =  .97). There was no correlation between plasma bradykinin and citric acid cough threshold. Conclusions.—Increased levels of bradykinin are unlikely to be a significant factor in the increased sensitivity to citric acid seen in hypobaric hypoxia. Further studies are required to elucidate the etiology of altitude-related cough.
ISSN:1080-6032
1545-1534
DOI:10.1580/1080-6032-020.004.0353