Objective To evaluate the clinical effectiveness of Periocline (2% minocycline hydrochloride ointment) versus Yakang (metronidazole stilus) for treating chronic periodontitis in adults by means of meta-analysis. Methods The following electronic databases as PubMed, The Cochrane Library, EMbase, CNKI, CBM and WanFang Data were searched on computer from inception to July, 2012, and the references of all selected studies were also retrieved to collect the relevant randomized controlled trials (RCTs) on periocline vs. Yakang for chronic periodontitis. According to the inclusion and exclusion criteria, two reviewers independently screened studies, extracted data, and evaluated the methodological quality of the included RCTs. Then meta-analysis was performed using RevMan 5.0 software. Results A total of 7 RCTs involving 737 patients were included. The results of meta-analysis showed that there were no significant differences in probing depth (MD=0.26, 95%CI −0.35 to 0.87, P=0.40), clinical attachment level (MD=−0.10, 95%CI −0.75 to 0.54, P=0.75), sulcus bleeding index (MD=0.12, 95%CI −0.30 to 0.53, P=0.59), and plaque index (MD=0.07, 95%CI −0.09 to 0.22, P=0.41) between the Periocline group and the Yakang group. Conclusion The current evidence shows that based on periodental non-surgical treatment, Periocline is similar to Yakang in improving the symptoms of chronic periodontitis in adults. However, given the low methodological quality and the limited sample size of most included studies, this conclusion still needs to be further proved by conducting more strictly-designed, high-quality and large-scale RCTs. The long-term effectiveness of those 2 treatment modalities also needs to be observed in a longer follow-up duration.
Objective To observe the expression of vascular endothelial growth factor receptor-1 (VEGFR-1) and VEGFR-2 in hypoxic chorioretinal endothelial cells of monkeys (RF/6A), and to evaluate the effect of minocycline. Methods RF/6A was cultured and divided into four groups: control group, hypoxia group, hypoxia and low dose of minocycline group (0.5 mu;mol/L), hypoxia and medium dose of minocycline group (5 mu;mol/L), and hypoxia and high dose of minocycline group (50 mu;mol/L). Real-time reverse transcriptionpolymerase chain reaction (RT-PCR) and immunohistopathological staining were used to measure the mRNA and protein expression of VEGFR-1 and VEGFR-2, respectively. Results RT-PCR showed that the expression of VEGFR-1 mRNA did not vary significantly between groups (F 24 h=0.17,F 48 h=1.53,F72 h=2.04;P>0.05). Compared with hypoxia group, the expression of VEGFR-2 mRNA in all minocycline treated groups were significantly downregulated (low minocycline, medium minocycline, high minocycline: t=4.69, 20.16, 17.12; P<0.001). The immunohistopathological study showed the cells with positive staining of VEGFR-1 can be observed in all groups, and the staining was relatively weak and mainly located in cell membrane and cytoplasm. The optical density value analysis showed that the protein expression of VEGFR-1 did not vary significantly between groups at all time points(F 24 h=0.251,F 48 h=0.340,F72 h=0.589;P>0.05). The VEGFR-2 positive staining cells were also observed in all groups, and the staining was relatively high. Brown staining particles of VEGFR-2 were observed in the cell membrane with minor staining particles in cytoplasm. The staining density of VEGFR-2 was significantly higher in hypoxia group than control group. Compared with the hypoxia group, the protein expression of VEGFR-2 in minocycline treated groups was significantly lower(F 24 h=19.147,F 48 h=14.893,F72 h==11.984; P<0.05). Conclusion The expression of VEGFR-2 is upregulated in RF/6A, and minocycline somewhat shows an inhibition effect.
Objective To observe the effect of Minocycline on RP process of retinal pigmentary degeneration rd mice[C3H/HeN (Pde6brd-/rd-)]. Methods 40 rd mice were divided into ten groups randomly: 5 experimental groups and 5 control groups, 4 rd mice in each group. The experimental group received intraperitoneal injection of minocycline 22.5mg/kg while the control group received saline 10ml/kg every day from the postnatal day 1 (P1) . Mice were sacrificed at P1, P7, P14, P21 and P28 respectively. Eyeballs were enucleated to carry out histology observation and apoptosis cell detection. Meanwhile, to statistically analyze the number of retinal photoreceptor cells,the thickness of outer nuclear layer (ONL)and the number of apoptosis cells. Results (1)Photoreceptor cell began to apoptosis on P7, peaked on P14, and totally disappeared on P28. (2)No statistically significant differences were found of the number of photoreceptor cells and the thickness of ONL on P7 between the experimental group and the control group. (3) The number of photoreceptor cells and the thickness of ONL in the experimental were more than that in the control group at P14, P21, P28 respectively, the differences are statistically significant(Plt;0.05). (4) The apoptotic cells on ONL were less in the experimental group than that in the control group on P7 and P14 respectively, the difference are statistically significant(Plt;0.05). Conclusions Minocycline appears to protect photoreceptor cell from apoptosis in the early stage of the retinal degeneration mice, but it may not completely prevent RP from occurrence.
Objective To observe the effects of minocycline to the viability and apoptosis of ratprime;s retinal neuron cells (RNC) under pressure, and to investigate the neuroprotective mechanisms of minocycline against the RNC damage. Methods Establish a model of ratprime;s RNs under pressure cultured in vitro, the protective effect of minocycline is observed by different methods, including observing the morphology of the cells, evaluating the cellsprime; viability by methyl thiazolyl tetrazolium (MTT) colorimetry assay, and detecting the cellular apoptosis with acridine orange/ethidium bromide (AO/EB) double staining by fluorescence microscopy. Immunocytochemistry was used to detect the expression of iNOS and caspase-3 in the cells. Results Obvious morphology changes of RNC were found in cells under pressure compared with the control; the viability of RNC decreased and cellular apoptosis was found in 53.93% cells. The cellular morphology improved in the cells treated by 20 mu;mol/L minocycline, the cellular viability significantly increased, and the cellular apoptosis was found in 17.29% cells. In addition, the expression of iNOS and caspase3 in the treated cells decreased compared with which in the pressured group. Conclusion Minocycline with a certain concentration can effectively inhibit pressureinduced damage and apoptosis of RNC of rats, and the inhibitory effect on expression of iNOS and capases-3 may be the underlying mechanism.