Objective To investigate the species distribution and antibiotic resistance of pathogens fromcatheter-related bloodstream infections ( CRBSI) in intensive care unit( ICU) , to provide evidence for the guidance of clinical rational administration.Methods A retrospective analysis was performed to review the microbiological and susceptibility test data of all CRBSI patients in ICU from January 2009 to December 2011. The patterns of antibiotic resistance among the top seven bacteria were compared. Results 67 cases of CRBSI were detected with 81 strains, including 40 Gram-positive ( G+ ) bacteria( 49.4% ) , 38 Gram-negative( G- ) bacteria ( 46.9% ) , and 3 fungi ( 3.7% ) . The main pathogens causing CRBSI were coagulase negative Staphylococci ( 27 strains, 33.3%) , Acinetobacter baumannii ( 12 strains, 14.8% ) , Klebsiella pneumoniae( 9 strains, 11. 1% ) , Staphylococcus aureus ( 8 strains, 9. 9% ) , Pseudomonas aeruginosa ( 7 strains, 8. 6% ) , Escherichia coli ( 6 strains, 7.4% ) , suggesting that Staphylococcus epidermidis was predominant pathogenic G+ bacteria, and Acinetobacter baumannii was predominant G- bacteria. The antibiotic resistance tests demonstrated that isolated G- bacillus was highly sensitive to carbopenem, while vancomycin-resistant G+ bacteria were not found. Conclusions Within the latest 3 years, the predominant pathogens of CRBSI in ICU are Staphylococcus epidermidis and Acinetobacter baumannii. Acinetobacter baumannii exhibited high drug resistance to all antibiotics.
Objective Neuron purification is essential to procedure of various nerve cell experimental research, however, at present there is few reports on the effect of various factors on neural axons during purification. To find out a simple method of neuron purification, and to investigate the influence factors of corresponding purification culture in dorsal root gangl ion (DRG) tissue culture on β3-tubul in positive axon. Methods The DRGs were obtained from the 3 days neonatal SD rat microscopically and were made into cell suspension. Then, the amount of attached DRG neurons and non neuronal cells in poly-D-lysine (PDL) group, PDL/Laminin (PDL/LN) group and collagen-I (Col I) group was observed from 10 to 100 minutes. Then, the extension and arborization of β3-tubul in positive axons were observed after 72 hours completely randomised DRG tissue culture for the research of the influences among culture substrates (PDL, PDL/LN, and Col I), FBS (0, 5%, and 10%), 5 fluorouracil (5-Fu, 0, 20, and 40 μmol/L), and cytrarabine (Ara-C, 0, 10, and 20 μmol/L). Results Adherent cells were observed instantly after inoculation by inverted phase contrast microscope and inverted fluoresence microscope; after cell suspension was removed, adherent growth of DRGn cells and non-DRGn cells were still seen. In PDL group, the amount of NSE negative cells was significantly higher than that of NSE positive cells at 10 and 30 minutes (P lt; 0.05); the amount of NSE positive cells was significantly higher than that of NSE negative cells at 80, 90 and 100 minutes (P lt; 0.05). In PDL/LN gruop, there was no significant difference (P gt; 0.05) in the amount of NSE negative cells and NSE positive cells at 10, 20, 30, 40, and 50 minutes; the amount of NSE positive cells was significantly higher (P lt; 0.05) than that of NSE negative cells at 60, 70, 80, 90, 100 minutes. In Col I group, the amount of NSE negative cells was higher than that of NSE positive cells at 10-40 minutes, but showing no significant difference (P gt; 0.05); the amount of NSE positive cells was significantly higher (P lt; 0.05) than that of NSE negative cells at 70-100 minutes. At 72 hours after DRG tissue culture, the best result of β3-tubul in positive axon extension and arborization was obtained when the substrate level was PDL/LN, and the average length of PDL/LN level was significantly larger than that of other two substrates (P lt; 0.05). The highest number of β3-tubul in positive axon distal end was obtained at 5% concentration level of FBS (P lt; 0.05), but showing no significant differences in β3-tubul in positive axon length among three levels (P gt; 0.05). Both the most of β3-tubul in positive axon distal ends and the longest β3-tubul in positive axon average length were obtained at 0 μmol/L concentration level of 5-Fu, showing significant differences between 0 μmol/L level and 20, 40 μmol/L levels (P lt; 0.05). A similar result of β3-tubul in positive axon distal end was got at the 0 μmol/L level and 10 μmol/L level of Ara-C, which was significantly higher than that of 20 μmol/L level (Plt; 0.05). Conclusion? A purified DRG neuron suspension for neuron culture could be obtained via PDL differential attachment for 30 minutes. When DRG neuron culture, neuron special medium, PDL/LN substrate and 10 μmol/L Ara-C are recommended in β3-tubul in positive axon research.
Objective To study the cl inical effects of modified Galveston technology in the treatment of lumbosacral tuberculosis. Methods From January 2001 to May 2008, 19 patients with lumbosacral tuberculosis were treated, including13 males and 6 females aged 21-58 years old (average 38 years old). The course of disease was 8-22 months. The tuberculosis was at the L4-S1 level in 3 cases, the L5, S1 level in 10 cases, the L5-S2 level in 5 cases, and the S1, 2 level in 1 case. Seven cases were compl icated with neural symptom of the lower l imbs, 3 cases of them were grade C and 4 cases were grade D according to the Frankel scale of nerve function. The preoperative JOA score of lower back pain was 5-22 (average 19). Six cases were compl icated with il iac abscess, 3 cases with psoas abscess, 3 cases with sacroil iac joint tuberculosis, and 2 cases with pulmonary tuberculosis. For 12 patients, the operation of modified Galveston internal fixation via the posterior approach, focus debridement via vertebral canal, and interbody fusion with autogeneous il iac bone fragment grafting was performed; for 7 cases, the operation of modified Galveston internal fixation via the posterior approach, vertebral lamina fusion with autogeneous il iac bone fragment grafting, and anterior focus debridement was performed. Results The incision of 18 cases was healed by first intention, and 1 case had sinus 3 weeks after operation and healed 3 months after operation. Nineteen patients were followed up for 12-82 months (average 21 months). There was no recurrence of the local tuberculosis, and the common toxic symptom of tuberculosis disappeared 6-12 months after operation. All the patients achieved bony fusion 4-6 months postoperatively, and 3 patients with sacroil iac joint tuberculosis achieved sacroil iac joint fusion. For those 7 patients with combinations of the neural symptomof the lower l imbs, the symptoms disappeared and their Frankel scales were improved to grade E. The JOA score of low back pain at the final follow-up was 22-29 (average 26). There was a significant difference between preoperation and postoperation (P lt; 0.05). Conclusion The modified Galveston technology is helpful to reconstruct the stabil ity of lumbosacral vertebrae, improve bony fusion rate, reduce the postoperative in-bed time.
Object ive To summa r i z e the advanc ement of cytoske l e ton and axon outgrowth of neuron. Methods The recent l iterature concerning cytoskeleton and axon outgrowth of neuron was reviewed and summarized. Results The actin filaments and microtubules in neuron were highly polarized and dynamic structures confined to the ti ps of axons and the reci procal interactions between these two major cytoskeletal polymers was also dynamic. Attractive or a repulsive cue whose final common path of action was the growth cone cytoskeleton mediated the growth of axons of neuron by intracellular signaling cascades. Regulating the actin filament and microtubule dynamics as well as their interactions in growth cones played a key role in neurite outgrowth and axon guidance. Rho-GTPases and glycogen synthase kinase 3β (GSK-3β), the two major intracellular signal ing pathways had emerged in recent years as candidates for regulating the dynamics of actin filaments and microtubules. Conclusion The axon outgrowth and guidance depend on well-coordinated cytoskeletal and reciprocal interaction dynamics which also mediate axon regeneration after spinal cord injury. Regulating activity of Rho-GTPases and GSK- 3β simultaneously may acts as key role to regulate the dynamics of cytoskeletal and to determine axon outgrowth.