Objective To observe the clinical effects of Naloxone and Methylprednisolone(MPS) on therapy of severe bronchiolitis. Methods 98 cases of severe bronchihtis were randomly divided into 2 groups,the Naloxone/MPS treating group and the control group,the later only give regular treatment. Results The Naloxone/MPS treating group scored significantly lower at the time of 48 hours and 5 days(P＜0.001),according to cough,dyspnia and other respiratory symptoms,and the efficacy of Naloxone/MPS treatment is appreciately higher than control(P＜0.01). Conclusion Naloxone and MPS therapy shows remarkable clinical beneficial effects on severe bronchiolitis.

ObjectiveTo understand the pathological and physiological roles of Presenilin 1 (PS1) in Alzheimer's disease (AD) recurrence, and the interaction between PSI and carhoxyl terminus of Hsc70 interacting protein (CHIP). MethodsThe yeast two-hybrid system was applied to identify a novel PS1 interacting protein as CHIP. After pGBKT7-PS1-C203 bait plasmid and full fragement CHIP of pACT2-CHIP expression vector were constructed, the interaction between PSI and CHIP was tested by β-galactosidase assay, pGBKT7-PS1-C203 was co-transfected with pACT2-CHIP into 293T cells and the interaction between PS1 and CHIP was tested by co-immunoprecipitation and Western blot. ResultsSpecificity of the interaction between PS1 and CHIP was identified by β-galactosidase assay and co- immunoprecipitation. ConclusionsCHIP is able to modulate chaperone functions and the pathway of protein ubiquitination/degradation. CHIP may regulate a proper assembly of the γ-secretase complex through its interaction with PSI, which is helpful to elucidate the mechanism of AD pathology.

Objective To investigate the effect of high altitude hypoxia on chronic inflammation in rats.Methods Forty SD rats were randomly divided into 4 groups: control group (Con),chronic inflammation group (CI),high altitude hypoxia group (HH),high altitude hypoxia+chronic inflammation group (HH+CI).Rats in CI group were injected with lipopolysaccharide (LPS) (0.5 mg/kg) through the caudal vein twice a week for 4 weeks.Rats in HH+CI group were treated just as CI group was,but together with HH group rats were settled in a hypoxic environment of 6000 m altitude for three days.Pathological changes in lung tissues were observed by hematoxylin eosin stain.The peripheral white blood cell count and classification were measured.The levels of interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF-α) in serum and lung tissues were detected by enzyme-linked immunosorbent assay (ELISA).Changes in IL-6 expression in rat lung tissues were observed by Western blotting.Results After LPS and high altitude hypoxia exposure,inflammatory cells infiltration and alveolar capillary expansion were observed in rats' lung tissue.Compared with Con group,not only the peripheral white blood cell count,but also the level of IL-6 and TNF-α in serum and lung tissue increased in CI and HH group(P<0.01).IL-6 expression levels observed by Western blotting were also increased in HH and CI group(P<0.01).High altitude hypoxia and chronic inflammation interacted(P<0.01).The peripheral white blood cell count was higher in HH+CI group than in other groups,and IL-6 and TNF-α expressions in lung tissue were increased(P<0.05).Conclusion An LPS-induced chronic inflammation model in rats is successfully obtained,and high altitude hypoxia could aggravate chronic inflammation.

Objective:To analyze the difference of clinical characteristics and outcomes of infants with moderate and severe pediatric acute respiratory distress syndrome(PARDS)diagnosed according to baseline oxygenation index(OI) in pediatric intensive care unit(PICU).Methods:Second analysis of the data collected from the "Efficacy of pulmonary surfactant (PS) in the treatment of children with moderate and severe ARDS" program.Retrospectively compare of the differences in clinical data such as general condition, underlying diseases, OI, mechanical ventilation, PS administration and outcomes among infants with moderate and severe PARDS divided by baseline OI who admitted to PICUs at 14 participating tertiary hospitals from 2016 to December 2021.Results:Among the 101 cases, 55 cases (54.5%) were moderate and 46 cases (45.5%) were severe PARDS.The proportion of male in the severe group (50.0% vs.72.7%, P=0.019) and the pediatric critical illness score(PCIS)[72 (68, 78) vs.76 (70, 80), P=0.019] were significantly lower than those in the moderate group, while there was no significant difference regarding age, body weight, etiology of PARDS and underlying diseases.The utilization rate of high-frequency ventilator in the severe group was significantly higher than that in the moderate group (34.8% vs.10.9%, P=0.004), but there was no significant difference in PS use, fluid load and pulmonary complications.The 24 h OI improvement (0.26±0.33 vs.0.04±0.34, P=0.001) and the 72 h OI improvement[0.34 (-0.04, 0.62) vs.0.15 (-0.14, 0.42), P=0.029)]in the severe group were significantly better than those in the moderate group, but there was no significant difference regarding mortality, length of hospital stay and intubation duration after diagnosis of PARDS between the two groups. Conclusion:In moderate and severe(divided by baseline OI) PARDS infants with invasive mechanical ventilation, children in severe group have better oxygenation improvement in the early stage after PARDS identified and are more likely to receive high frequency ventilation compared to those in moderate group.Baseline OI can not sensitively distinguish the outcomes and is not an ideal index for PARDS grading of this kind of patient.