Objective To explore the risk factors, pathogenic bacteria, drug resistance and corresponding measures of prevention and treatment on lower respiratory tract infection caused by extended-spectrum beta-lactamase-producing bacteria (ESBLPB) in neonates. Methods The patieats were from the neonatal intensive care unit(NICU) of The First People's Hospital of Zhaoqing from Jan. 1998 to Apr. 2001. The secretions of the lower respiratory tract were collected, and bacterial culture and antimicrobial susceptibility testing were done. Results There were 23 positive cases in the 42 cultured cases, and 12 cases out of 23 cases were ESBLPB positive. The positive rate of ESBLPB was 52%(12/23). Of them, 9 cases (75%) had the history of using the third generation cephalosporins, 10(83%) were under mechanical ventilations, 8(67%) were lowbirth weight infants and/or premature infants. There were 21 strains in 12 cases. They were 8(38%)Klebsiella pneumoniae, 5(24%)Enterobacter cloacae, 3(14%) Escherichia coli, 3(14%) Pseudomonas aeruginosa, 1(5%)Stenotrophomonas maltophilia, 1(5%) brevi-flavobacterium strains. The ESBLPBs were sensitive to imipenem, ciprofloxacin, amikacin, levofloxacin, ticarcillin-clavulanic acid, meropenem, piperacillin but resistant to other antibiotics. Ten out of the 12 cases were fully recovered from their infection. Conclusion There are multiple factors to increase the lower respiratory tract infections caused by ESBLPB in neonates. The effective measures associated with the infection prevention include intensive sterilization and isolation, and timely immunigation.

Objective: To explore the effect of ulinastatin on anti-inflammation and pulmonary function protection with its mechanism for infants at cardiopulmonary bypass surgery. Methods: A total of 38 infants with ventricular septal defect undergoing cardiac operation were randomly divided into 2 groups. Ulinastatin group, the patients received uliastatin 20 000 U/kg,n=20 and Control group, the patients received the same volume of normal saline,n=18. The serum levels of TNF-α, IL-2, IL-l0 were examined at 4 time points: 5 min before skin incision (T1), immediate opening of aorta (T2), 4 hours after operation (T3) and 24 hours after operation (T4). The expressions of CD4+CD45+ T cells and CD4+Foxp3+ T cells were measured at T4. The respiratory index and oxygenation index at 4 time points were compared between 2 groups. Results: Compared with Control group, Ulinastatin group had the lower levels of TNF-α, IL-2 and higher level of IL-l0 at T2, T3, T4; Ulinastatin group also had the higher oxygenation index and lower respiratory index at T2, T3, T4, allP<0.05. Ulinastatin group had less expression of CD4+CD45+ T cells (35.98 ± 3.67)% than Control group (41.94 ± 4.56)% , and more expression of CD4+Foxp3+ T cells (19.65 ± 3.45)% than Control group (6.45 ± 1.47)%,P<0.05-P<0.01. Conclusion: Ulinastatin may improve the differentiation from CD4+CD45+ T cell to Foxp3+CD4+ T cell, down regulating inlfammatory response and protecting pulmonary function for infants at cardiopulmonary bypass surgery.

Objective:To compare the durability of resin-based root-surface coating material and all-in-one self-etching adhesive on root surface in vitro.Methods:Human extracted premolars or molars with intact roots were selected.The cementum was removed using a periodontal scaler to expose root dentin. The root surface was coated with an acid-resistant nail varnish,leaving a window of 3 mm ×3 mm on the exposed dentin.The window was covered with either PRG Barrier Coat (PRG)or Clearfil S3 Bond (CS3).After water aging for 14 d,specimens were immersed in acid buffer at pH 4.5 for 4 d and the demineralization buffer was changed every 24 h.Then the specimen was split longitudinally through the center of the ‘window’and the cross-sectional surface was observed with scanning electron microscope (SEM).After fixed and dehydrated,the prepared samples were coated with platinum.The coating mate-rial,root dentin and the interface was observed by scanning electron microscope (SEM).The thickness of the coating material was measured on the SEMimages.Regarding toothbrush wear test,coronal dentin-disks were prepared and covered with PRG and CS3,respectively.After storage in water for 24 h,the specimen was subjected to the toothbrush wear tester for 100,200,300,500,700,1 500 brushing cy-cles.A slurry of fluoride toothpaste (1 ∶2 ratio of toothpaste and deionized water by weight)was used and the brushing load was 300 N.The surface microstructure of remaining coating material was analyzed using SEM.The wear depths were determined by a profilometer.Statistical analysis was performed with SPSS 20.0 by one-way ANOVA.The level of significance was at 0.05.Results:Application of PRG Barrier Coat produced a coating layer of (47.1 ±27.3)μm,while CS3 presented a thin film of (5.7 ± 2.1)μm in thickness.The exposed dentin was hermetically sealed and no obvious gap was observed at the interface in both PRG and CS3 groups.There was no dentin demineralization observed in both groups after water aging.The wear depths of PRG and CS3 increased along with the numbers of brushing cycles. PRG wore at a significant lower pace than CS3 did (P <0.05).Conclusion:PRG coating resin had similar performances as CS3 on protecting root dentin from demineralization after water aging.What’s more,PRG demonstrated a higher toothbrush wear resistance than CS3.We concluded that PRG Barrier Coat contained S-PRG filler may be an effective coating material for protecting exposed root from both chemical and mechanical challenges.Further studies should be carried out to evaluate the long-term reli-ability of the rootsurface coating materials under the clinical setting.

Lumbago is a general, frequently and complicated clinical symptom. 60% to 80% in adults suffer from back pain of varying degrees. The pain causing by various pathological changes stimulateing the ache receptor in intervertebral disc is call discogenic low back pain. Along with people knowing more and more about this disease, all kinds of treatment techniques are applied in clinic. But the indication and therapeutic effects are both evidently different. Below is a summary of the therapic method about discogenic low back pain based on international and domestic reference data of recent years and the author's clinical experiences.
Humans ; Intervertebral Disc ; pathology ; Low Back Pain ; pathology ; surgery ; therapy ; Lumbar Vertebrae ; transplantation ; Minimally Invasive Surgical Procedures ; Transplantation

Nitrate is the main form of inorganic nitrogen that crop absorbs, and nitrate transporter 2 (NRT2) is a high affinity transporter using nitrate as a specific substrate. When the available nitrate is limited, the high affinity transport systems are activated and play an important role in the process of nitrate absorption and transport. Most NRT2 cannot transport nitrates alone and require the assistance of a helper protein belonging to nitrate assimilation related family (NAR2) to complete the absorption or transport of nitrates. Crop nitrogen utilization efficiency is affected by environmental conditions, and there are differences between varieties, so it is of great significance to develop varieties with high nitrogen utilization efficiency. Sorghum bicolor has high stress tolerance and is more efficient in soil nitrogen uptake and utilization. The S. bicolor genome database was scanned to systematically analyze the gene structure, chromosomal localization, physicochemical properties, secondary structure and transmembrane domain, signal peptide and subcellular localization, promoter region cis-acting elements, phylogenetic evolution, single nucleotide polymorphism (SNP) recognition and annotation, and selection pressure of the gene family members. Through bioinformatics analysis, 5 NRT2 gene members (designated as SbNRT2-1a, SbNRT2-1b, SbNRT2-2, SbNRT2-3, and SbNRT2-4) and 2 NAR2 gene members (designated as SbNRT3-1 and SbNRT3-2) were identified, the number of which was less than that of foxtail millet. SbNRT2/3 were distributed on 3 chromosomes, and could be divided into four subfamilies. The genetic structure of the same subfamilies was highly similar. The average value of SbNRT2/3 hydrophilicity was positive, indicating that they were all hydrophobic proteins, whereas α-helix and random coil accounted for more than 70% of the total secondary structure. Subcellular localization occurred on plasma membrane, where SbNRT2 proteins did not contain signal peptides, but SbNRT3 proteins contained signal peptides. Further analysis revealed that the number of transmembrane domains of the SbNRT2s family members was greater than 10, while that of the SbNRT3s were 2. There was a close collinearity between NRT2/3s of S. bicolor and Zea mays. Protein domains analysis showed the presence of MFS_1 and NAR2 protein domains, which supported executing high affinity nitrate transport. Phylogenetic tree analysis showed that SbNRT2/3 were more closely related to those of Z. mays and Setaria italic. Analysis of gene promoter cis-acting elements indicated that the promoter region of SbNRT2/3 had several plant hormones and stress response elements, which might respond to growth and environmental cues. Gene expression heat map showed that SbNRT2-3 and SbNRT3-1 were induced by nitrate in the root and stem, respectively, and SbNRT2-4 and SbNRT2-3 were induced by low nitrogen in the root and stem. Non-synonymous SNP variants were found in SbNRT2-4 and SbNRT2-1a. Selection pressure analysis showed that the SbNRT2/3 were subject to purification and selection during evolution. The expression of SbNRT2/3 gene and the effect of aphid infection were consistent with the expression analysis results of genes in different tissues, and SbNRT2-1b and SbNRT3-1 were significantly expressed in the roots of aphid lines 5-27sug, and the expression levels of SbNRT2-3, SbNRT2-4 and SbNRT3-2 were significantly reduced in sorghum aphid infested leaves. Overall, genome-wide identification, expression and DNA variation analysis of NRT2/3 gene family of Sorghum bicolor provided a basis for elucidating the high efficiency of sorghum in nitrogen utilization.
Nitrate Transporters ; Nitrates/metabolism* ; Sorghum/metabolism* ; Anion Transport Proteins/metabolism* ; Phylogeny ; Protein Sorting Signals/genetics* ; Nitrogen/metabolism* ; DNA ; Gene Expression Regulation, Plant ; Plant Proteins/metabolism*