Your search keyword '"Almassabi, Rehab"' showing total 2 results

1. Influential eradication of resistant Salmonella Typhimuriumusing bioactive nanocomposites from chitosan and radish seed-synthesized nanoselenium

Author

El Rabey, Haddad A., Almassabi, Rehab F., Mohammed, Ghena M., Abbas, Nasser H., Bakry, Nadia, Althiyabi, Abdullah S., Alshubayli, Ibrahim H., and Tayel, Ahmed A.

Abstract

Biosynthesized nanomaterials and nanocomposites (NCs) could have promising potentialities to overcome the multi-drug-resistant (MDR) pathogenic bacteria, particularly Salmonella Typhimurium. Radish seed (Raphanus sativus) mucilage (RSM) was employed for synthesizing/capping selenium nanoparticles (SeNPs) and their nanoconjugates with chitosan (Ct) were assessed for inhibiting MDR S. typhimurium. The SeNPs were effectually biosynthesized using RSM and have 4.21 nm mean size and −25.6 mV surface charge. Different NC formulations of Ct/RSM/SeNPs were generated and validated using infrared spectroscopy and electron microscopy. The entire formulations could suppress S. Typhimuriumgrowth, including MDR strains. F3 NCs (with 53.64 nm diameter and +21.1 mV surface charge) had the strongest anti-S. Typhimuriumactivity that exceeded the action of cephalosporin, and the subsequent antibacterial formulation was F2 (with 41.77 nm diameter and −17.3 mV charge). The NCs of Ct/RSM/SeNPs could severely destruct, deform, and lyse S. Typhimuriumcells’ structures throughout 10 h of exposure. The innovative fabricated NCs of Ct/RSM/SeNPs are auspiciously suggested as effectual biocides to eradicate MDR S. Typhimuriumin various food-processing facilities.

Published

2024

2. Potent antibacterial nanocomposites from okra mucilage/chitosan/silver nanoparticles for multidrug-resistant SalmonellaTyphimurium eradication

Author

El Rabey, Haddad, Almassabi, Rehab F., Mohammed, Ghena M., Abbas, Nasser H., Bakry, Nadia, Althiyabi, Abdullah S., Alshubayli, Ibrahim H., and Tayel, Ahmed A.

Abstract

The polymeric nanocomposites (NCs), constructed from okra (Abelmoschus esculentus) fruits mucilage (OM), silver nanoparticles (AgNPs), and chitosan (Ch), were fabricated as potential candidates to overcome drug-resistant SalmonellaTyphimurium bacteria. AgNPs were directly mediated by OM, with 4.2 nm mean diameters. The composed NCs from Ch/OM/AgNPs were innovatively synthesized and the various ratios of Ch:OM/AgNPs affected the NCs particles’ size and charges. The infrared analysis of employed materials/NCs validated their interactions and conjugations. The antibacterial assays of NCs against different resistant S.Typhimurium strains indicated the efficiency of polymeric NCs to inhibit bacteria with significant superiority over standard antibiotics. The NCs that contained equal ratios from Ch and OM/AgNPs were the best formulation (mean diameter, 47.19 nm and surface charge, +16.9 mV) to exhibit the strongest actions toward S.Typhimurium. The NCs caused severe deformation, destruction, and lysis in exposed bacteria, as traced with scanning microscopy. The biosynthesis of AgNPs using OM and their nanoconjugation with Ch provided effectual natural biopolymers NCs with enhanced expected biosafety and efficiency against drug-resistant S. Typhimurium strains, which supports their potential applications as disinfectant, sterilizing, and curative antibacterial agents.

Published

2024