Bacterial infections are the key cause of death in patients suffering from burns and diabetic wounds while the use of traditional antibiotics has been growing steadily. Thus, in the present study, we are trying to introduce a paradigm shift strategy to improve chronic wound healing of bacterial infection. To that end, we have biologically synthesized silver nanoparticles (AgNPs) using
Arthrospira sp
polysaccharides, and evaluated their antibacterial efficacy with their safety pattern. Scanning electron micrographs showed spherical AgNPs coated with algal polysaccharides with an approximate size of 9.7 nm. Treatment of
Pseudomonas aeruginosa
with the AgNPs (0.5–1 μg/mL) resulted in a significant disruption in
P. aeruginosa
outer membrane, reduction in biofilm formation, and a significant decrease of production of alginate and pyocyanin along with a concentration-dependent reduction in β-lactamase activity. In addition, at the
in vivo
level, AgNPs displayed substantial activity to control
P. aeruginosa
infections in rat skin wounds with significant reduction in in COX-2 enzyme in both rat skin homogenate and serum samples. Furthermore, AgNPs facilitated wound curative in the
P. aeruginosa
infected model by reducing the hemorrhagic areas number and the infiltrated inflammatory cells. Taken all together, these biogenic nanoparticles showed unique properties in controlling bacterial wound infections and improving the healing process of damaged tissues via its direct and indirect effects.
Wound healing is a complicated multicellular process that involves several kinds of cells including macrophages, fibroblasts, endothelial cells, keratinocytes and platelets that are leading to their differentiation towards an anti-inflammatory response for producing several chemokines, cytokine and growth factors. In this study, electrospun nanofiber scaffold named (MNS) is composed of polyvinyl alcohol (PVA)/iota carrageenan (IC) and doped with partially reduced graphene oxide (prGO) that is successfully synthesized for wound healing and skin repair. The fabricated MNS was tested in case of infection and un-infection with E. coli and Staphylococcus and in both of the presence and in the absence of yeast as a natural nutritional supplement. Numerous biochemical parameters including total protein, albumin, urea and LDH, and hematological parameters were evaluated. Results revealed that the MNS was proved to be effective on most of the measured parameters and had exhibited efficient antibacterial inhibition activity. Whereas it can be used as an effective antimicrobial agent in wound healing, however, histopathological findings confirmed that the MNS caused re-epithelialization and the presence of yeast induced hair follicles growth and subsequently it may be used to hide formed head wound scar.
Objective: Silybum marianum and Suaeda vermiculata are popular plants wealthy in cancer prevention agents. There is no enough research on both plants since they are not available in many places. They are widely spread in Egypt. Methods: This research was performed to estimate their antimicrobial effect as well as their hepatoprotective effect against strong drugs inducing oxidative stress such as doxorubicin which may be a chemotherapeutic operator utilized to treat different sorts of cancer and demonstrated to be hepatotoxic medicate. Six bunches of male Wistar rats were utilized (control, Silybum marianum extricate, Suaeda vermiculata extricate, doxorubicin, Silybum marianum extricate additionally doxorubicin and Suaeda vermiculata extricate additionally doxorubicin). Results: Our data confirmed the effective antimicrobial effect of both plants and also the hepatoprotective effect against oxidative damage. Both plants are highly recommended as natural supplements by patients treated by different drugs inducing oxidative stress whereas; Milk thistle was proved to be stronger hepatoprotective herb.
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