Objective To investigate the effect of aerosolized perfluorocarbon (PFC) (FC77) on gas exchange,histopathological changes of lung in acute lung injury and pulmonary expression of tumor necrosis factor-α (TNF-α) mRNA.Methods After acute lung injury (ALI) was induced by oleic acid (OA),16 rabbits were assigned randomly into 2 groups,ie.aerosolized perfluorocarbon group (PFC group) and conventional mechanical ventilation group (CMV group).Gas exchange parameters were measured before and after ALI,at 1,2,3,4 h after treatment.Histological sections taken from 6 different parts of lung were stained by hematoxylin and eosion.The express of TNF-α mRNA in the 2 different parts of lung were detected by in situ hybridization (ISH).Results Compared with CMV group,the PaO2 and static lung compliance (CLst) were significantly increased (Plt;0.05),the histopathological lesions of lung were attenuated,and the TNF-α mRNA expression was decreased significantly in PFC group (all Plt;0.05).There was more expression of TNF-α mRNA in backside than that in foreside of lung in two groups (Plt;0.05).Conclusion Aerosolized perfluorocarbon (PFC) can decrease expression of tumor necrosis factor-α mRNA in the lung,and improve the CLst and oxygenation during acute lung injury.
Diabetes and its complications pose a serious threat to human life and health. It has become a public health problem of wide concern worldwide. Currently, diabetes is mainly treated with insulin injection in clinic. However, manual insulin injection still has many shortcomings. In recent years, with the deepening of research, it has been found that an automated insulin delivery system (AID), which combines a continuous glucose monitoring device with an insulin pump, can significantly improve the effectiveness of diabetes treatment and reduce the incidence of complications in patients. This paper firstly introduces the composition of the AID system and its working principle, and then details the development history and current status of the related technologies from the aspects of continuous glucose monitoring technology, insulin pumps and the development of closed-loop control algorithms, etc. Finally, this paper looks forward to the application prospect and future development of AID system in the field of diabetes treatment, providing theoretical reference for further research.