Objective:To explore the characteristics of intestinal flora in children with asthma from the theory of "lung and large intestine being interior-exterior" , and to provide an experimental basis for the study of "lung and intestine axis" .Methods:Based on 16S rDNA high-throughput sequencing technology, stool samples from children with 30 asthma and 28 healthy children were enrolloed and sequenced. All patients are from january 2018 to April 2018, Shanghai Children's Medical Center affiliated to Shanghai Jiaotong University Medical College and Oriental Hospital Affiliated to Tongji University. Statistical methods such as Principal component analysis (PCA), LEfSe analysis, linear discriminant analysis (LDA), and non-metric multidimensional scale analysis (NMDS) were used to analyze intestinal flora characteristics of asthma children.Results:The number of Intestinal flora operating taxon unit (OTU) in asthmatic group (141.96 ± 27.42 vs. 164.54 ± 50.58, P=0.048), Shannon index (2.49 ± 0.51 vs. 2.80 ± 0.56, P=0.044) were significantly lower than those of healthy children group, and Simpson index (0.18 ± 0.06 vs. 0.13 ± 0.07, P=0.010) was significantly higher than that of healthy children. There was no significant difference in intestinal flora abundance between asthmatic children and healthy children ( P>0.05), but there was a decreasing trend. Further differential intestinal flora analysis showed that there were differences in bacterial abundance between children with asthma and healthy children. Conclusion:Children with asthma showed high related with intestinal flora disorders, referring that asthma maybe treated when intestinal flora is treated, which provides a reference for the study of the relationship between lung and intestine from the perspective of intestinal flora.

Methods To investigate how the timing of cooling therapy affects organ injuries in rats with exertional heat stroke(EHS)and explore the possible mechanisms.Methods A total of 60 adult male Wistar rat models of EHS were randomized into model group without active cooling after modeling,immediate cooling group with cold water bath immediately after modeling,delayed cooling groups with cold water bath at 5,15 and 30 min after modeling,with another 12 mice without EHS as the normal control group.The changes in core body temperature of the mice were recorded and the cooling rate was calculated.After observation for 24 h,the mice were euthanized and blood samples were collected for detection of interleukin-1β(IL-1β),IL-2,IL-4,IL-6,IL-10,and interferon-γ,followed by pathological examination of the vital organs.The rats that died within 24 h were immediately dissected for examination.Results The number of deaths of the model rats within 24 h increased significantly with the time of delay of cooling treatment.The delay of cooling was positively correlated(r=0.996,P=0.004)while the cooling rate negatively correlated with the mortality rate(r=-0.961,P=0.009).The inflammatory cytokine levels presented with different patterns of variations among the cooling intervention groups.All the rat models of EHS had significant organ damages characterized mainly by epithelial shedding,edema,effusion,and inflammatory cell infiltration,and brain and renal injuries reached the peak level at 24 h after EHS.Conclusion EHS causes significant nonspecific pathologies of varying severities in the vital organs of rats,and the injuries worsen progressively with the delay of cooling.There is a significant heterogeneity in changes of serum inflammatory cytokines in rats with different timing of cooling intervention following EHS.

Methods To investigate how the timing of cooling therapy affects organ injuries in rats with exertional heat stroke(EHS)and explore the possible mechanisms.Methods A total of 60 adult male Wistar rat models of EHS were randomized into model group without active cooling after modeling,immediate cooling group with cold water bath immediately after modeling,delayed cooling groups with cold water bath at 5,15 and 30 min after modeling,with another 12 mice without EHS as the normal control group.The changes in core body temperature of the mice were recorded and the cooling rate was calculated.After observation for 24 h,the mice were euthanized and blood samples were collected for detection of interleukin-1β(IL-1β),IL-2,IL-4,IL-6,IL-10,and interferon-γ,followed by pathological examination of the vital organs.The rats that died within 24 h were immediately dissected for examination.Results The number of deaths of the model rats within 24 h increased significantly with the time of delay of cooling treatment.The delay of cooling was positively correlated(r=0.996,P=0.004)while the cooling rate negatively correlated with the mortality rate(r=-0.961,P=0.009).The inflammatory cytokine levels presented with different patterns of variations among the cooling intervention groups.All the rat models of EHS had significant organ damages characterized mainly by epithelial shedding,edema,effusion,and inflammatory cell infiltration,and brain and renal injuries reached the peak level at 24 h after EHS.Conclusion EHS causes significant nonspecific pathologies of varying severities in the vital organs of rats,and the injuries worsen progressively with the delay of cooling.There is a significant heterogeneity in changes of serum inflammatory cytokines in rats with different timing of cooling intervention following EHS.