The risk reduction of recurrent periodontal pathogens of local application minocycline HCl 2% gel, used as an adjunct to scaling and root planing for chronic periodontitis treatment.

BACKGROUND: The aim of this study was to evaluate the clinical and microbiological effects of local application minocycline HCl 2% gel, used as an adjunct to scaling and root planing (SRP) for treatment of chronic periodontitis (CP). CP is an inflammation of periodontal tissue that is caused mainly by bacterial infection, where periodontal destruction such as loss of attachment and bone destruction occurred. METHODS: A total of 81 subjects with moderate to severe periodontitis whose baseline clinical attachment loss (CAL) was ≥4 mm were randomly assigned to receive SRP alone (control group, N=39) or SRP followed by four times of local application of minocycline HCl gel (Periocline) once a week (test group, N=42). Pocket depth, CAL, and papilla bleeding index were examined at baseline, 21 days, 2, 3, and 6 months. Subgingival plaque samples were collected with sterile curettes and were analyzed by real-time polymerase chain reaction for the presence of three periodontal pathogens (Porphyromonas gingivalis [P.g.], Tannerella forsythia [T.f.], and Treponema denticola [T.d.]) at baseline, 2, 3, and 6 months. RESULTS: The number of bacteria was reduced in both groups at 2 months after baseline (SRP treatment). The changes (2-6 months) in T.d. and T.f. counts in the test group were significantly lower than those in the control group. In the control group, a significant regrowth of P.g., T.f., and T.d. was observed from 2 to 6 months and of P.g. and T.f. from 3 to 6 months. On the other hand, in the test group, the number of the three bacteria did not significantly increase during the 6-month period. CONCLUSION: The results showed that local application of minocycline, used as an adjunct to SRP, was effective for suppressing regrowth of periodontal pathogens, suggesting its risk reduction of recurrent periodontal pathogens in CP.

Amorphous nanosilica particles induce ROS generation in Langerhans cells.

Generation of total intracellular reactive oxygen species (ROS) was measured in XS52 cells, a Langerhans cell-like line, treated with different sized amorphous silica particles. The results suggested that exposure to amorphous nanosilica particles (nSPs) with a particle size of 70 nm induced a higher level of ROS generation than did exposure to micron-sized amorphous silica particles. This finding means that it is essential to examine the biological effects of ROS generated after exposure to nSPs, which will provide useful information for hazard identification as well as the design of safer nanomaterials.

Dermal absorption of amorphous nanosilica particles after topical exposure for three days.

The skin penetration and cellular localization of well-dispersed amorphous nanosilica particles (nSPs) with a diameter of 70 nm was analyzed in mice. Our results suggest that after topical exposure for three days the particles penetrate the skin barrier and are transported to the lymph nodes. These findings underscore the need to examine biological effects following dermal exposure to nSPs for the development of safer use of nSPs.

Size-dependent immune-modulating effect of amorphous nanosilica particles.

The immune-modulating effect following intradermal injection of various-sized amorphous silica particles was analyzed in terms of induction of ovalbumin-specific CD8+ T cells in vivo. IFN-gamma ELISPOT assays revealed that only nanosilica particles with a diameter of less than 100 nm significantly enhanced CD8+ T cell responses against ovalbumin. These results indicate that the size of nanomaterials is a critical determinant in terms of their safe use.

A possible animal model for critical colonisation.

OBJECTIVE: To develop a critical colonisation model in rats that will facilitate investigation of its pathophysiology and the development of new and effective diagnosis and treatment protocols. METHOD: Three groups of rats were given full-thickness dorsal wounds: a control group received phosphate-buffered saline; an experimental group was inoculated with Pseudomonas aeruginosa; an infection group with streptozotocin-induced diabetes was also inoculated with P. aeruginosa. All groups were assessed on a number of parameters at days 1, 3, 5 and 7 following wounding. Parameters included gross observations, histopathological observations, quantification of redness and swelling, serum C-reactive protein (CRP) measurement and tissue bacterial counts. RESULTS: Healing was delayed in the experimental group when compared with the control group, with no signs of inflammation. Although the numbers of bacteria were similar in the experimental and infection groups, polymorphonuclear neutrophil (PMN) infiltration was localised to granulation tissue in the experimental group, whereas it extended to muscular tissue in the experimental group. CRP levels remained low in the experimental group. CONCLUSION: These findings suggest that the inoculation of bacteria provides a possible model of critical colonisation in rats. We believe this will contribute to a better understanding of critical colonisation.

Size-dependent cytotoxic effects of amorphous silica nanoparticles on Langerhans cells.

Amorphous silica nanoparticles (nSPs), are widely used in medicines, cosmetics and food. However, due to their reduced particle size they are suspected to pose new risks induced by changes in biological reactivity and kinetics, which differ from those of bulk materials. In a previous study, we showed that silica particles with a diameter of 70 nm penetrated the stratum corneum (SC) of mouse skin and were taken up by living cells such as keratinocytes and Langerhans cells. To clarify the relationship between particle size, distribution and cellular response, we have evaluated size-dependent intracellular localization and cytotoxicity of silica particles, using the mouse epidermal Langerhans cell line XS52. On treatment with silica particles of diameters 70, 300, and 1000 nm, cellular uptake and cytotoxicity increased with reduction in particle size. These results suggest that smaller sized silica particles induced greater cytotoxicity against Langerhans cells, which was correlated with the quantity of particle uptake into the cells.

Expression of a skin cholesterol sulfotransferase, St2b2, is a trigger of epidermal cell differentiation.

1. St2b2, a mouse cytosolic sulfotransferase, predominantly catalyses epidermal cholesterol sulfation. St2b2 was found in the basement layer by immunohistochemical analysis of normal mouse skin. The highest expression level was detected in epidermis from 3-day-old mice and then decreased before maturation. There was a good correlation between expression levels of skin St2b2 and a differentiation marker, involucrin. 2. To understand the role of St2b2 in epidermal cell differentiation, recombinant St2b2 was expressed in primary epidermal cells. The expression of St2b2 enhanced the involucrin expression with an increase of cholesterol sulfate. Furthermore, by down-regulation of the St2b2 gene expression, involucrin was decreased in dorsal skin of 1-3-day-old mice by 67% of the control. 3. These results strongly suggest a possibility that St2b2 expression plays a trigger of epidermal cell differentiation by controlling cholesterol sulfate level in the cells.

Runoff characteristics of nutrients from citrus fruit grove and its effects on water area.

In this study, field observations are carried out in order to make clear the runoff characteristics of pollutants from citrus fruit grove, especially nutrients such as nitrogen, phosphorus and other inorganic materials. Long-term observation in the test fields continued for more than 7 months and detailed observations during one rainfall are also carried out. From these observations, the following results are obtained. 1) Nitrogen concentration in grove soil leachate is usually in a range of 25 to 45 mgN/L, and the main component is nitrate, whereas phosphorus concentration is in a range of 0.1 to 0.8 mgP/L and the main component is phosphate. Concentration of nutrients is higher than that in environment around it. 2) Runoff loading rate of any materials from grove soil can be unified and expressed as a power function of the flow rate. In this case, runoff style of each material is characterized by the power coefficient beta x. 3) It is understood that the runoff characteristics are affected by the pH and rate of rainfall, and the ways of affecting the runoff characteristics are different in each material. 4) It is also suggested that detailed investigations are required to estimate the effect of pollutant runoff because the runoff characteristics are widely changed by the rainfall characteristics.