In the present study, we report the preparation of silver nanoparticles in the range of
10–15 nm with increased stability and enhanced anti-bacterial potency. The morphology of
the nanoparticles was characterized by transmission electron microscopy. The antibacterial
effect of silver nanoparticles used in this study was found to be far more potent than that
described in the earlier reports. This effect was dose dependent and was more
pronounced against gram-negative bacteria than gram-positive organisms. Although
bacterial cell lysis could be one of the reasons for the observed antibacterial property,
nanoparticles also modulated the phosphotyrosine profile of putative bacterial peptides,
which could thus affect bacterial signal transduction and inhibit the growth of the
organisms.
Thrombotic disorders have emerged as serious threat to society. As anticoagulant and thrombolytic therapies are usually associated with serious bleeding complications, the focus has now shifted to regulating and maintaining platelets in an inactive state. In the present study we show that nanosilver has an innate antiplatelet property and effectively prevents integrin-mediated platelet responses, both in vivo and in vitro, in a concentration-dependent manner. Ultrastructural studies show that nanosilver accumulates within platelet granules and reduces interplatelet proximity. Our findings further suggest that these nanoparticles do not confer any lytic effect on platelets and thus hold potential to be promoted as antiplatelet/antithrombotic agents after careful evaluation of toxic effects.
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