Spontaneous pneumothorax and ozone levels: is there a relation?

Spontaneous pneumothorax and ozone levels: is there a relation?

Study objectives: Although links between meteorological con- ditions and spontaneous pneumothorax (SP) have been pro- posed, the reports are controversial. In this study ozone lev- els, which are known to have some adverse effects on lung tissues, were investigated as a potential triggering factor o...

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Bibliographic Details
Published in:Multidisciplinary respiratory medicine Vol. 6
Main Authors: Abul, Yasin, Karakurt, Sait, Bostanci, Korkut, Yuksel, Mustafa, Eryuksel, Emel, Evman, Serdar, Celikel, Turgay
Format: Journal Article
Language:English
Italian
Published: Pavia PAGEPress Publications 01-12-2011
Subjects:
Pneumothorax
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Summary:Study objectives: Although links between meteorological con- ditions and spontaneous pneumothorax (SP) have been pro- posed, the reports are controversial. In this study ozone lev- els, which are known to have some adverse effects on lung tissues, were investigated as a potential triggering factor of SP. At present there is not sufficient information about the effects of ozone on SP. Methods: Of a total 79 pneumothorax patients recruited for the study, 21 secondary pneumothorax cases were excluded. In the remaining 58 SP patients, meteorological data at the time of SP occurrence were recorded. Results: The number of SP patients was higher in spring than in the other seasons (p < 0.05). There was an association between the SP frequency and the average ozone level at dif- ferent seasons (F 3,52 = 19.45, p = 0.001). The average ozone level was higher in spring (363 ± 25 Dobson) than during the other seasons (autumn 296 ± 18 Dobson; summer 321 ± 26 Dobson; winter 324 ± 32 Dobson) (p = 0.001). There was a positive correlation between SP frequency and the average ozone values for each season (r = 0.301, p = 0.024). There was no significant correlation between the severity of SP and ozone level (r = 0.236, p = 0.16). Conclusions: The number of SP patients increases in spring when ozone levels are highest. Ozone is known to affect alve- olar cells and cause interstitial edema. Ozone causes damage to the lung interstitium by way of oxidative stress. Rupture of unrecognized underlying blebs/bullae has been proposed as a cause of SP. Increased levels of ozone may be a triggering fac- tor for these ruptures.
ISSN:1828-695X
2049-6958
DOI:10.4081/mrm.2011.426