Body mass index is associated with reduced exhaled nitric oxide and higher exhaled 8-isoprostanes in asthmatics

Sushma, Cribbs, Emory University; Sumita, Khatri, Case Western; Joel, Mermis, Emory University; Samira, Savill, Emory University; Shireen, Haque, Emory University; Mauricio, Rojas, Emory University; Lou, Brown, Emory University; Gerald W, Teague, Emory University; Fernando, Holguin, Emory University

Persistent URL

https://open.library.emory.edu/purl/542n5tb316-emory

Last modified

02/25/2025

Type of Material

Article

Authors

Sushma Cribbs, Emory University

Sumita Khatri, Case Western

Joel Mermis, Emory University

Samira Savill, Emory University

Shireen Haque, Emory University

Mauricio Rojas, Emory UniversityLou Brown, Emory UniversityGerald W Teague, Emory UniversityFernando Holguin, Emory University

Language

English

Date

2007-04-16

Publisher

BioMed Central

Publication Version

Final Published Version

Copyright Statement

© 2007 Komakula et al; licensee BioMed Central Ltd.

License

Creative Commons Attribution 2.0 Generic

Final Published Version (URL)

http://dx.doi.org/10.1186/1465-9921-8-32

Title of Journal or Parent Work

Respiratory Research

ISSN

1465-9921

Volume

8

Issue

1

Start Page

32

End Page

32

Abstract

Background: Recently, it has been shown that increasing body mass index (BMI) in asthma is associated with reduced exhaled NO. Our objective in this study was to determine if the BMI-related changes in exhaled NO differ across asthmatics and controls, and to determine if these changes are related to increased airway oxidative stress and systemic levels of leptin and adiponectin.Methods: Observational study of the association of BMI, leptin, and adiponectin with exhaled nitric oxide (NO) and exhaled 8-isoprostanes in 67 non-smoking patients with moderate to severe persistent asthma during baseline conditions and 47 controls. Measurements included plasma levels of leptin, adiponectin, exhaled breath condensates for 8-isoprostanes, exhaled NO, pulmonary function tests, and questionnaires regarding asthma severity and control.Results: In asthmatics, BMI and the ratio of leptin to adiponectin were respectively associated with reduced levels of exhaled NO (β = -0.04 [95% C.I. -0.07, -0.1], p < 0.003) and (β = -0.0018 [95% C.I. -0.003, -0.00034], p = 0.01) after adjusting for confounders. Also, BMI was associated with increased levels of exhaled 8-isoprostanes (β = 0.30 [95% C.I. 0.003, 0.6], p = 0.03) after adjusting for confounders. In contrast, we did not observe these associations in the control group of healthy non-asthmatics with a similar weight distribution.Conclusion: In adults with stable moderate to severe persistent asthma, but not in controls, BMI and the plasma ratio of leptin/adiponectin is associated with reduced exhaled NO. Also, BMI is associated with increased exhaled 8-isoprostanes. These results suggest that BMI in asthmatics may increase airway oxidative stress and could explain the BMI-related reductions in exhaled NO. © 2007 Komakula et al; licensee BioMed Central Ltd.

Author Notes

Email: Sushma Komakula - skomaku@emory.edu; Sumita Khatri - skhatri@metrohealth.org; Joel Mermis - jmermis@learnlink.emory.edu; Samira Savill - samira.savill@gmail.com; Shireen Haque - shaque2@learnlink.emory.edu; Mauricio Rojas - mrojas@emory.edu; LouAnn.Brown@oz.ped.emory.edu; Gerald W Teague - Gerald.Teague@oz.ped.emory.edu; Fernando Holguin: fch5@cdc.gov

Keywords

Research Categories

Health Sciences, Health Care Management
Health Sciences, General

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Body mass index is associated with reduced exhaled nitric oxide and higher exhaled 8-isoprostanes in asthmatics

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