Cross-sectional study of effect of adiposity and hypertensive states on airway dynamics
DOI:
https://doi.org/10.18203/2320-6012.ijrms20192488Keywords:
Adiposity, Airway dynamics, Hypertension, Pulmonary functionAbstract
Background: Adiposity and hypertensive states are major burden for community. It causes many health-related issues, including problems related to respiratory system. It is proposed that pulmonary functions can be affected in obese hypertensive and obese normotensive adults compared to non-obese normotensive adults. The objective of the study was to find out the effect of adiposity and hypertensive states on the airway dynamics.
Methods: About 30 male obese normotensives and 30 male obese hypertensive subjects were selected as study participants. 30 age-controlled non-obese, normotensive males were selected as controls. All participants were in the age group of 40 to 60 years. The pulmonary functions measured were FVC, FEV1, FEV1% and PEFR. All the participants performed 3 attempts of spirometry and maximum among the three recordings were used for analysis. ANOVA followed by Post hoc analysis to find out any significant differences between these groups. Spearman’s rank correlation was used.
Results: There was a statistically significant differences in BMI between the group I and group II and III. There was a significant difference in SBP and DBP between obese normotensive (group II) and obese hypertensive (group III) subjects. There were significant decline in % predicted values of PFT parameters, on comparing obese normotensive and obese hypertensive when compared to non-obese normotensive participants. There were statistically significant negative correlations between age and FEV1 as well as BMI and PEFR.
Conclusions: There was a significant decrease the pulmonary functions in obese normotensive and obese hypertensive adults in comparison to non-obese normotensive adults. It can be concluded that body weight and adiposity as well as high blood pressure creates deleterious effect on airway dynamics.
References
Pi-Sunyer X. The medical risks of obesity. Postgraduate medicine. 2009;121(6):21-33.
Wilborn C, Beckham J, Campbell B, Harvey T, Galbreath M, La Bounty P, et al. Obesity: prevalence, theories, medical consequences, management, and research directions. J Int Soc Sports Nutrition. 2005;2(2):4.
Zammit C, Liddicoat H, Moonsie I, Makker H. Obesity and respiratory diseases. Int J Gen Med. 2010;3:335-43.
Krachler B, Savonen K, Komulainen P, Hassinen M, Lakka TA, Rauramaa R. VO2max/kg is expected to be lower in obese individuals!. Int J Cardiol. 2015;189:234.
Wannamethee SG, Shaper AG, Whincup PH. Body fat distribution, body composition, and respiratory function in elderly men. Am J Clinic Nutrit. 2005;82(5):996-1003.
Chinn DJ, Cotes JE, Reed JW. Longitudinal effects of change in body mass on measurements of ventilatory capacity. Thorax. 1996;51:699-704.
Lazarus R, Sparrow D, Weiss ST. Effects of obesity and fat distribution on pulmonary function: the normative aging study. Chest. 1997;111:891-8.
American thoracic society. Standardization of spirometry: 1994 update. Am J Resir Crit Care Med. 1995;152:1107-36.
King GG, Brown NJ, Diba C, Thorpe CW, Muñoz P, Marks GB, et al. The effects of body weight on airway caliber. Eur Respir J. 2005;25:896-901.
Alpert MA. Obesity cardiomyopathy: pathophysiology and evolution of the clinical syndrome. Am J Med Sci. 2001;321(4):225-36.
Thakur V, Richards R, Reisin E. Obesity, Hypertension, and the Heart. Am J Med Sci. 2001;321(4):242-8.
Zerah F, Peremuter L, Lorino H, Lorino AM, Atlan G. Effects of obesity on respiratory resistance, Chest. 1993;103:1470-6.