Objective:To investigate the preventive effect of airflow shock on micro-smoke in patients with mechanical ventilation through oral tracheal intubation.Methods:Using simple random sampling method, 76 patients who underwent mechanical ventilation through oral tracheal intubation in Tianjin First Central Hospital from March 2019 to August 2019 were selected as subjects. They were divided into two groups by the random number table method with 38 cases in each group. The observation group was treated with airflow shock method and intermittent glottic suction. The control group was treated with intermittent glottic suction. The total amount of retentate on the 24 h capsule and the suction tube on the capsule were compared. The incidence of catheter blockage, bacterial culture of the upper respiratory tract and lower respiratory tract secretion, ventilator-associated pneumonia (VAP) incidence rate, and changes in vital signs of patients before and after operation.Results:The incidence of VAP, the total amount of retentate on the 24 h capsule, the incidence of catheter blockage was 2.9% (1/34), (19.37 ± 5.52) ml, 17.6% (3/34) in the observation group, and 20.0% (7/35), (14.98 ± 3.77) ml, 25.7% (12/35) in the control group, the difference between the two groups was statistically significant ( χ2 values were 4.896, 7.239, t value was 5.315, P<0.05 or 0.01). The positive rate of pathogens in the sac retentate culture was 54.6% (113/207), 149 pathogens, the positive rate of lower respiratory tract secretion pathogen was 12.6% (26/207), and 37 pathogens. The pathogens of the two groups were similar. Gram-negative bacilli mainly, the main dominant bacteria were Acinetobacter baumannii, Pseudomonas aeruginosa and Stenotrophomonas maltophilia, and there was no significant difference in the ratio of the main pathogens in the sac retentate and lower respiratory tract secretions between the two groups ( P>0.05). There was no significant difference in heart rate, systolic blood pressure, diastolic blood pressure and respiratory changes between the two groups before and after operation ( P>0.05). Conclusions:The airflow impact method combined with the suction under the glottal can effectively remove the airbag wrinkles and the retentate accumulated on the capsule, which can reduce the incidence of suction tube obstruction on the capsule, prevent the occurrence of micro aspiration and reduce the incidence of VAP.

Objective:To analyze the relationship between maternal mutations in basal core promoter region of hepatitis B virus (HBV) genotype C and intrauterine transmission.Methods:We collected information on general demographic characteristics and process of delivery among 399 pairs of consecutive HBsAg-positive mothers and their neonates, from the Third People’s Hospital of Taiyuan in Shanxi province, China. Fluorescence quantitative polymerase chain reaction (FQ-PCR) and Electro-chemiluminescence immuno-assay (ECLIA) kits were used to detect both maternal and neonatal HBV DNA and serological markers in the peripheral blood. From 113 mothers with HBV DNA load ≥10 6 IU/ml, we selected 22 mothers whose neonates were with intrauterine transmission and randomly selected the same number of mothers whose neonates were without intrauterine transmission, as controls. The whole-length HBV DNA were extracted, amplified, cloned, sequenced and genotyped. Finally, a total of 39 mothers with genotype C of HBV were selected for mutation analysis. Results:Thirty-nine cases of genotype C (88.63 %) were finally included in the study, with 19 cases in the intrauterine transmission group and 20 cases as controls. Rates of A1762T/G1764A double mutations were significantly different between the intrauterine transmission group and the control group (7.53 % vs. 27.72 %, P<0.001). Results from the multivariate analysis showed that the A1762T/G1764A double mutations had reduced the risk of intrauterine transmission (a OR=0.065, 95 %CI: 0.006-0.746, P=0.028). Maternal A1762T/G1764A double mutations appeared to be possibly associated with neonatal HBeAg ( P=0.050). Conclusion:A1762T/G1764A double mutations of HBV DNA from the genotype C of those HBsAg-positive mothers could reduced the risk of HBV intrauterine transmission during pregnancy.

Objective:To analyze the virus genome mutation of mothers with C genotype HBV and explore its relationship with HBV intrauterine transmission.Methods:A total of 399 mothers carrying HBV and their newborns hospitalized in the obstetrics department of the Third People's Hospital of Taiyuan from 2011 to 2013 were selected. Necessary information about mothers and children was obtained through a questionnaire survey and medical records. HBV DNA and HBV serological markers were detected by quantitative fluorescence PCR and electrochemiluminescence. Within 24 hours after birth and before active/passive immunization, those with positive HBsAg and/or HBV DNA in femoral venous blood were determined as HBV intrauterine transmission. According to the requirements of cloning and sequencing, mothers' HBV DNA load should be ≥10 6 IU/ml. Among 54 cases of HBV intrauterine transmission, 22 pairs of mothers and their newborns meeting the requirements of cloning and sequencing were used as the intrauterine transmission group. The same number of mothers and their newborns without intrauterine transmission was selected as the random seed method's control group. After PCR amplification of HBV DNA, gene cloning, and sequencing, the gene mutation analysis of mothers with C genotype HBV was performed. Results:Among the 44 samples, 39 (88.63%, 39/44) were genotype C, 2 were genotype B, and 3 were mixed genotype B, and C. A total of 406 clone beads from 42 mothers with C genotype HBV were analyzed for gene mutation, including 204 in the intrauterine transmission group and 202 in the control group. The base substitution mutation rate of PreS1, S, C, and P regions in the HBV intrauterine transmission group were significantly lower than those in the control group ( χ 2 ranged from 8.67 to 40.73, P<0.05). The mutation rate of base deletion in PreC and X regions in the HBV intrauterine transmission group was lower than that in the control group ( χ 2 values were 17.82 and 34.78, P<0.001). Two clones in the X region had 31 bp insertion mutations between nt1644 and nt1645, and two clones had 27 bp insertion mutations between nt1649 and nt1650, all of which took place in the control group. Conclusions:The base substitution mutations in the PreS1, S, C, and P segments of the HBV genome in mothers with C genotype HBV were associated with the occurrence of intrauterine transmission of HBV. Deletion mutations in the PreC region, insertion and deletion mutations in the X region may reduce intrauterine transmission risk.

This study aims to investigate the effect of bovine leukemia virus encoded microRNAs(BLV-miRNAs)on lactoperoxidase(LPO)in bovine mammary epithelial cells(BMECs).Firstly,the LPO content in the milk of BLV-positive cows,categorized by different viral loads,was quanti-fied by enzyme-linked immunosorbent assay(ELISA).Subsequently,BMECs were cultured in vitro and infected with(1 MOI)full-length BLV and BLV lacking miRNAs(BLV-ΔmiRNAs).Va-rious analytical techniques,including fluorescent quantitative PCR and ELISA,were used to assess LPO expression levels in different BMEC cohorts.Ten BLV-miRNAs were computationally predic-ted to target LPO using software tools such as StarMir.Based on these predictions,transfections of BLV-miRNAs were carried out and preliminary verification of their effects on target genes were performed.The results showed that compared to that of BLV-negative counterparts,the LPO levels in the milk of BLV-positive cows,stratified by high and low viral load,decreased by 8.73％and 9.68％,respectively.Invitro experiments further corroborated these trends,revealing a significant increase(P＜0.05)in LPO expression within BMECs following the deletion of BLV-miRNAs compared to the group infected with full-length BLV-infected group.Computational target site pre-dictions implicated BLV-miR-B1-5p,B3-3p,and B4-5p in the collective regulation of the LPO gene.Transfection of BLV-miR-B1-5p into BMECs resulted in a significant downregulation of LPO gene expression(P＜0.05),with the effect intensifying proportionally with the transfection dose.Simi-larly,the transfection of BLV-miR-B4-3p into BMECs significantly reduced LPO gene expression(P＜0.05)without showing a dose-dependent behavior.In conclusion,this research indicates that BLV-miRNAs can suppress LPO expression in BMECs.

Coronavirus disease 2019(COVID-19),which is caused by SARS-CoV-2,varies with regard to symptoms and mortality rates among populations.Humoral immunity plays critical roles in SARS-CoV-2 infection and recovery from COVID-19.However,differences in immune responses and clinical features among COVID-19 patients remain largely unknown.Here,we report a database for COVID-19-specific IgG/IgM immune responses and clinical parameters(named COVID-ONE-hi).COVID-ONE-hi is based on the data that contain the IgG/IgM responses to 24 full-length/truncated proteins corresponding to 20 of 28 known SARS-CoV-2 proteins and 199 spike protein peptides against 2360 serum samples collected from 783 COVID-19 patients.In addition,96 clinical parameters for the 2360 serum samples and basic information for the 783 patients are integrated into the database.Furthermore,COVID-ONE-hi provides a dashboard for defining samples and a one-click analysis pipeline for a single group or paired groups.A set of samples of interest is easily defined by adjusting the scale bars of a variety of parameters.After the"START"button is clicked,one can readily obtain a comprehensive analysis report for further interpretation.COVID-ONE-hi is freely available at www.COVID-ONE.cn.