Effect of hyperoxia on the airway and vascular development in fetal lung and the intervention of dexamethasone
- VernacularTitle:高氧对胎儿肺气道及血管发育的影响及地塞米松的干预作用
- Author:
Juan LI
;
Bo LIU
- Publication Type:Journal Article
- Keywords:
Glucocorticoids;
Hyperoxia;
Lung development;
Chronic lung disease
- From:
Chinese Pediatric Emergency Medicine
2008;15(4):342-344
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the effects of dexamethasone on the airway development and vasculogenesis in cultured human fetal lung exposed to hyperoxia.Methods Human fetal lung at the pseudoglandular stage of development were cultured either in normoxia(21%O2,5%CO2)or hyperoxia(95%O2,5% CO2)for 72 hours.Dexamethasone was added into the culture medium at the concentration of 10-6 mol/L.Whereas ethanol at the same concentration was as control.Harvested tissue wss stained for pancytokeratin to I dentify epithelial cells.CD31 aS a specific antibody of endothelial cell.The effects of lung morphometry were analyzed using computer-assisted image analysis software to ealeuhte the thickness of airways,surface area occupied by airways and the distance of vessels to the nearest airway as well as the surface area of blood vessels.Results The lung architecture remained largely unchanged in normoxia for 72 hours culture,whereas hyperoxic culture of lungs resulted in significant dilation of airways and thinning of epithelium.The surface area occopied by airways increased significantly(P<0.05).The blood vessels in interstium were more close to the airway epithelium in the hyperoxic lung(50 μm)as compared with normoxia group.Meanwhile,the proportion of the blood wessels in interstium of hyperoxia group(4.0%)Was higher than those of normoxia group (4.2%)and hyperoxia with dexamethasone(5.4%)(P<0.05).Dexamethasone has the protective effect on lungs exposed tO hyperoxia.Conclusion Our resulta showed that hyperoxia resulted in the simple airways and the decreased bkxxl vessel density in interstitium of cultared human fetal lung.Dexamethasone has protective effect on fetal lungs exposed to hyperoxia and can promote lung mature.
