41 days after injury, whereas mice in the control group required

41 days after injury, whereas mice in the control group required 18.5 ± 0.65 days (P < .05). In the nondiabetic littermates, silver nanoparticles learn more still accelerated wound healing relative to the control group. Tian et al. 93 investigated VEGF expression patterns by using quantitative real-time PCR and found that TGF-β increased and reached a peak on day 3 in the silver nanoparticle–treated group, which may explain why significantly higher VEGF mRNA levels were maintained in the early stage of wound healing. Tian et al. 93 detected much higher levels of VEGF mRNA in keratinocytes present at the wound edge and in those

that migrated to cover the wound surface. 93 Besides a scarce expression in mononuclear cells, VEGF was not expressed in other cell types in the wound, indicating that keratinocytes are the major source of VEGF in the wound. As this factor is highly specific for endothelial cells, it is likely to have a paracrine function VE-821 cost in the sprouting of capillaries on the wound edge and in granulating tissue. It appears from these findings that silver treatment not only acts as an antibacterial, but also directly acts on dampening the process of inflammation, thus promoting scarless wound healing and

the effect of silver nanoparticles on different mediators during impaired wound healing shown in Table 4. 93 The recent emergence of nanotechnology has provided a new therapeutic modality in silver nanoparticles for use in various wounds.

Nonetheless, the beneficial effects of silver nanoparticles on wound healing remain unknown. Tian et al.93 investigated the wound-healing properties of silver nanoparticles in an animal model and found that rapid healing and improved cosmetic appearance occur in a dose-dependent manner. Furthermore, through quantitative PCR, immunohistochemistry, and proteomic studies, they showed that silver nanoparticles exert positive effects through their antimicrobial properties, reduction in wound inflammation, and modulation of fibrogenic cytokines.93 First they investigated that the wound-healing property of silver nanoparticles is due solely to their antimicrobial property, confirmed that silver nanoparticles are a more effective antibacterial agent, and compared silver nanoparticles with Cell press amoxicillin and metronidazole, both commonly used antibiotics. Wounds treated with silver nanoparticles completely healed in 25.2 ± 0.72 days after injury, whereas those treated with antibiotics required 28.6 ± 1.02 days (P < .01). This finding suggests that other factors are also involved in the mechanism of action of silver nanoparticles. 87 Then they investigated the expression patterns of IL-6, TGF-β1, IL-10, VEGF, and IFN-λ by using quantitative real-time PCR. Here, levels of IL-6 mRNA in the wound areas treated with silver nanoparticles were maintained at statistically significantly lower levels throughout the healing process (P < .01).

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