BACKGROUND: Periodontitis is a severe chronic inflammatory disease, whose traditional systemic antimicrobial therapy faces great limitations. In-situ gels provide an effective solution as an emerging local drug delivery system. METHODS: In this study, the novel thermosensitive poloxamer/carbopol in-situ gels loaded with 20 lmol/L quercetin for the treatment of periodontitis were prepared by cold method. Thirteen batches of in-situ gels based on two independent factors (X1 : poloxamer 407 and X2 : carbopol 934P) were designed and optimized by the statistical method of central composite design (CCD). The transparency, pH, injectability, viscosity, gelation temperature, gelation time, elasticity modulus, degradation rate and in-vitro drug release studies of the batches were evaluated, and the percentage of drug release in the first hour, the time required for 90% drug release, gelation temperature, and gelation time were selected as dependent variables. RESULTS: These two independent factors significantly affected the four dependent variables (p < 0.05). The optimization result displayed that the optimized concentration of poloxamer 407 was 20.84% (w/v), and carbopol 934P was 0.5% (w/v). The optimized formulation showed a clear appearance (++), acceptable injectability (Pass), viscosity(151,798 mPa s), gelation temperature (36 °C), gelation time (213 s), preferable cell viability and cell proliferation, conformed to first-order release kinetics, and had a significant antibacterial effect. CONCLUSIONS The article demonstrates the great potential of the quercetin in-situ gel as an effective treatment for periodontitis.

BACKGROUND: Periodontitis is a severe chronic inflammatory disease, whose traditional systemic antimicrobial therapy faces great limitations. In-situ gels provide an effective solution as an emerging local drug delivery system. METHODS: In this study, the novel thermosensitive poloxamer/carbopol in-situ gels loaded with 20 lmol/L quercetin for the treatment of periodontitis were prepared by cold method. Thirteen batches of in-situ gels based on two independent factors (X1 : poloxamer 407 and X2 : carbopol 934P) were designed and optimized by the statistical method of central composite design (CCD). The transparency, pH, injectability, viscosity, gelation temperature, gelation time, elasticity modulus, degradation rate and in-vitro drug release studies of the batches were evaluated, and the percentage of drug release in the first hour, the time required for 90% drug release, gelation temperature, and gelation time were selected as dependent variables. RESULTS: These two independent factors significantly affected the four dependent variables (p < 0.05). The optimization result displayed that the optimized concentration of poloxamer 407 was 20.84% (w/v), and carbopol 934P was 0.5% (w/v). The optimized formulation showed a clear appearance (++), acceptable injectability (Pass), viscosity(151,798 mPa s), gelation temperature (36 °C), gelation time (213 s), preferable cell viability and cell proliferation, conformed to first-order release kinetics, and had a significant antibacterial effect. CONCLUSIONS The article demonstrates the great potential of the quercetin in-situ gel as an effective treatment for periodontitis.

BACKGROUND: Periodontitis is a severe chronic inflammatory disease, whose traditional systemic antimicrobial therapy faces great limitations. In-situ gels provide an effective solution as an emerging local drug delivery system. METHODS: In this study, the novel thermosensitive poloxamer/carbopol in-situ gels loaded with 20 lmol/L quercetin for the treatment of periodontitis were prepared by cold method. Thirteen batches of in-situ gels based on two independent factors (X1 : poloxamer 407 and X2 : carbopol 934P) were designed and optimized by the statistical method of central composite design (CCD). The transparency, pH, injectability, viscosity, gelation temperature, gelation time, elasticity modulus, degradation rate and in-vitro drug release studies of the batches were evaluated, and the percentage of drug release in the first hour, the time required for 90% drug release, gelation temperature, and gelation time were selected as dependent variables. RESULTS: These two independent factors significantly affected the four dependent variables (p < 0.05). The optimization result displayed that the optimized concentration of poloxamer 407 was 20.84% (w/v), and carbopol 934P was 0.5% (w/v). The optimized formulation showed a clear appearance (++), acceptable injectability (Pass), viscosity(151,798 mPa s), gelation temperature (36 °C), gelation time (213 s), preferable cell viability and cell proliferation, conformed to first-order release kinetics, and had a significant antibacterial effect. CONCLUSIONS The article demonstrates the great potential of the quercetin in-situ gel as an effective treatment for periodontitis.

BACKGROUND: Periodontitis is a severe chronic inflammatory disease, whose traditional systemic antimicrobial therapy faces great limitations. In-situ gels provide an effective solution as an emerging local drug delivery system. METHODS: In this study, the novel thermosensitive poloxamer/carbopol in-situ gels loaded with 20 lmol/L quercetin for the treatment of periodontitis were prepared by cold method. Thirteen batches of in-situ gels based on two independent factors (X1 : poloxamer 407 and X2 : carbopol 934P) were designed and optimized by the statistical method of central composite design (CCD). The transparency, pH, injectability, viscosity, gelation temperature, gelation time, elasticity modulus, degradation rate and in-vitro drug release studies of the batches were evaluated, and the percentage of drug release in the first hour, the time required for 90% drug release, gelation temperature, and gelation time were selected as dependent variables. RESULTS: These two independent factors significantly affected the four dependent variables (p < 0.05). The optimization result displayed that the optimized concentration of poloxamer 407 was 20.84% (w/v), and carbopol 934P was 0.5% (w/v). The optimized formulation showed a clear appearance (++), acceptable injectability (Pass), viscosity(151,798 mPa s), gelation temperature (36 °C), gelation time (213 s), preferable cell viability and cell proliferation, conformed to first-order release kinetics, and had a significant antibacterial effect. CONCLUSIONS The article demonstrates the great potential of the quercetin in-situ gel as an effective treatment for periodontitis.

BACKGROUND: Periodontitis is a severe chronic inflammatory disease, whose traditional systemic antimicrobial therapy faces great limitations. In-situ gels provide an effective solution as an emerging local drug delivery system. METHODS: In this study, the novel thermosensitive poloxamer/carbopol in-situ gels loaded with 20 lmol/L quercetin for the treatment of periodontitis were prepared by cold method. Thirteen batches of in-situ gels based on two independent factors (X1 : poloxamer 407 and X2 : carbopol 934P) were designed and optimized by the statistical method of central composite design (CCD). The transparency, pH, injectability, viscosity, gelation temperature, gelation time, elasticity modulus, degradation rate and in-vitro drug release studies of the batches were evaluated, and the percentage of drug release in the first hour, the time required for 90% drug release, gelation temperature, and gelation time were selected as dependent variables. RESULTS: These two independent factors significantly affected the four dependent variables (p < 0.05). The optimization result displayed that the optimized concentration of poloxamer 407 was 20.84% (w/v), and carbopol 934P was 0.5% (w/v). The optimized formulation showed a clear appearance (++), acceptable injectability (Pass), viscosity(151,798 mPa s), gelation temperature (36 °C), gelation time (213 s), preferable cell viability and cell proliferation, conformed to first-order release kinetics, and had a significant antibacterial effect. CONCLUSIONS The article demonstrates the great potential of the quercetin in-situ gel as an effective treatment for periodontitis.

With the social development, the importance of medical records has become increasingly prominent.This paper analyzes the methods and shortcomings of the current medical record quality control and proposes a new mode under two-level randomized blind method combining with the experience of our own hospital.This new mode, through reconstructing the work team, adjusting work pattern and task allocation, supervising problems rectification, combining with experts′ supervising terminal record, inspecting link record randomly, handling dissent, evaluating connotation quality and assessing performance, effectively reduced the defect rate of medical records, improved the archiving rate and promoted the quality of medical records, which is worth promoting.

[Objective] To investigate the mesenchymal stem cells (MSC) in treating acute lung injury (ALI) via ALI mouse model.[Methods] By monoclonal antibody Anti-GD2 of specific antigen ganglioside (GD2) only expressed on MSC as a carrier,new fluorescent molecule probe were synthesized through covalently coupling Anti-GD2 and fluorescent group CyDye mono-reactive NHS Esters (Cy7).Synthetic Anti-GD2-Cy7 and MSC were labeled by the specific binding of antigen and antibody in vitro.Total 84 balb/c male mice were selected and randomly selected 48 mice were divided into three groups:sham group (n =16),MSC+ ALI group (n =16),NS + ALI group (n =16).The lung histopathology and scores,lung W/D ratio and permeability of lung microvasculature were examined at 24 h,48 h after ALI mouse model.Other 36 mice were randomly divided into three groups:normal group (n =12),sham group(n =12),MSC +ALI group(n =12).Labeled MSC-GD2-Cy7 were transplanted into MSC+ALI group and sham group mice via tail vein injection.At 30 min,1 d,3 d,and 7 d post-MSC-GD2-Cy7 injection,the mice were sacrificed after anesthesia and then the lung was removed.Excised lung was detected on small animal fluorescent imager.[Results] Contrast to NS+ ALI group,the lung histopathology and scores,lung W/D ratio and permeability of lung microvasculature of MSC +ALI group were more greatly improved at both 24 h and 48 h.Fluorescent results showed that the signal intensity in thc lung of MSC +ALI group was significantly higher than that of sham group at each time point [(3.37 ± 0.02)× 10-4 vs (2.05 ± 0.04) × 10-4 scaled counts/s;(35.54 ± 0.47)× 10-4 vs (25.29 ± 1.48) × 10-4 scaled counts/s;(11.17 ± 0.75)×10-4 vs (6.09 ± 0.62)× 10-4 scaled counts/s;(3.10 ± 0.14) vs (0.00 ± 0.00)× 10-4 scaled counts/s;all P ＜ 0.05].[Conclusion] Our study showed that a proportion of cells migrated into normal and injured lungs 30 min after cell transplantation,and the cells started to recruit and largely gather in injured lungs at day 1 and persisted to day 7,these results suggest that MSC possess the ability to home into injured tissues.

According to the infection characteristics of batches of patients with extensive burns in dust explosion, the article focused on the concept and mode of whole-range fine management.Based on the characteristics and rules of infection prevention in bat-ches of patients with extensive burns, the measurement and examination of infection management were refined, the infection monitoring indexes were designed scientifically, the infection prevention scheme and monitoring table were formulated.By early and whole-range intervention of infection prevention, quantitative evaluation, fine management and precise control at different times, all levels of infec-tion management teams could fully serve their purposes in order to realize effective infection prevention.

OBJECTIVETo investigate the inhibitory effects of curcumin against HeLa cell invasion and migration and explore the underlying mechanisms.

METHODSHeLa cells were exposed to curcumin treatment at the concentrations of 0, 10, 25, 50, 100, 150 and 200 µmol/L for 24 h. MTT and TUNEL assays were used to assess the cell proliferation inhibition and apoptosis, respectively. Transwell assay was used to evaluate the invasiveness and migration of the treated cells, and RT-PCR and Western blotting were employed to detect the changes in the expression of inducible nitric oxide synthase (iNOS), and MMP-9 and E-cad, the 2 markers of cell invasion and migration, were detected by Western blotting. The capacity of NO production in HeLa cells was measured by Griess method.

RESULTSCurcumin inhibited the proliferation of HeLa cells by inducing cell apoptosis in a concentration-dependent manner. Curcumin inhibited the invasion and migration of HeLa cells by increasing E-cad expression and decreasing MMP-9 expression, and also decreased the expression level of iNOS and NO production in the cells.

CONCLUSIONCurcumin inhibits the invasion and migration of HeLa cells by decreasing the expression of iNOS.

Apoptosis ; Cell Movement ; drug effects ; Cell Proliferation ; Curcumin ; pharmacology ; HeLa Cells ; Humans ; Matrix Metalloproteinase 9 ; metabolism ; Nitric Oxide Synthase Type II ; metabolism

Several types of molecules, including the small non-coding RNAs, are involved in the precision regulation of neural development. The expression of microRNAs appears in a specific spatialtemporal sequence during the neural development, and abnormal expression may lead to neural dysplasia. MicroRNAs also play important roles in the regulation of cell biological behaviors in terms of survival, proliferation and differentiation. Neural stem cells are the mother cell of the nervous system. The proliferation, differentiation and migration of neural stem cells are tightly controlled so as to generate appropriate number and phenotype of daughter cells to ensure normal neural development. MicroRNAs are involved in the regulation of neural stem cell proliferation and differentiation via affecting the expression and function of their target mRNAs.
Animals ; Cell Differentiation ; Cell Proliferation ; Humans ; MicroRNAs ; physiology ; Nervous System ; growth & development ; Neural Stem Cells ; cytology ; physiology