The Effects of Rhodiola Tibetica on Lung Tissue of Rats with High Altitude Pulmonary Edema

Abstract

Objective observation of Tibetan medicine rhodiola on high altitude Pulmonary edema in rats and HIF-1a expression changes. Method Will 50 only male SD rats randomly divided into 5 group , are often oxygen control group (Xi'an , altitude 5m ), acute hypoxia control group (Xi'an , altitude 5m ), acute hypoxia Group (naqu , elevation 4500m ), rhodiola acclimatization control group ( Xi'an , altitude 5m ), rhodiola altitude acclimatization group (naqu, elevation 4500m ) , light and electron microscopic observation of lung tissue samples , immunohistochemical detection of various groups of lung tissue HIF-la expression, RT-PCR method detection altitude hypoxia group animal lungs HIF-la mRNA expression changes. Results Acute hypoxia group lung tissue microstructure and Ultrastructure of a discernible high altitude pulmonary edema, and after the Tibetan medicine rhodiola after high altitude pulmonary edema is significantly reduced, ( as in Figure 123456). Lung tissue within the immunohistochemical detection not see HIF-la protein expression, RT-PCR detection SD big rat intraperitoneal injection of rhodiola extract 40g BGE/kg, 2h open back began to rise 4h, peak, after declining 24h, basically back to their normal control group , level rhodiola medicine acclimatization group HIF a 1 am RNA expression are clearly higher than the atmospheric oxygen control group and acute hypoxia group (p < 0.01). Conclusions Tibetan medicine rhodiola on lung tissue HIF-lamRNA expression of conducive to reduce hypoxic rats high altitude pulmonary edema.