Your search keyword '"Mohamed S. El-Okaily"' showing total 6 results

1. Preparation, physical, optical, ESR and γ-ray attenuation efficacy investigation of copper oxide/silver borosilicate glass

Author

Ahmed M. A. El-Seidy, O. I. Sallam, Islam M. Nabil, Yasser S. Rammah, Mohamed S. El-Okaily, and Heba Alshater

Subjects

Ag/CuO nanocomposites, CuO-Nps, XRD, SEM, Borosilicate glass, Shielding parameter, Medicine, Science

Abstract

Abstract The sonication method was used to prepare a new set of CuO and CuO/Ag nanocomposites. The particle size was estimated using XRD and HR-TEM while the morphology of the nanoparticles was investigated with SEM. The average particle sizes of CuO and Ag falls in the 29.32–35.80 nm and 35.13–45.95 nm ranges, respectively. XRD declared that CuO has the space groups C 1 c 1 (9) and C 1 2/c 1 (15), while silver has space group F m -3 m (225). XPS analysis indicated the presence of Ag as Ag0 and Cu as Cu2+. Nano-oxide and nanocomposites were used to synthesis CuO and CuO/Ag doped lithium–zinc borosilicate glass. Physical parameters of the glass samples were calculated including density, $$\hbox {V}_{m}$$ V m , $$\hbox {V}_{o}$$ V o , $$\hbox {V}_{m}^{B}$$ V m B , OPD, $$\hbox {d}_{B-B}$$ d B - B , $$\hbox {n}_{b}$$ n b , and N, $$\hbox {R}_{p}$$ R p , and $$\hbox {R}_{i}$$ R i depending on Ag and CuO mole fractions. The physical properties of glass indicated an increase in density and an initial expansion in glass structural network with the addition of silver metal due to its larger size followed by a compression as its molar ratio increase due to its higher $$\hbox {C}_{no}$$ C no . XRD measurements were reported for the glass samples doped with nanoparticles, proving the amorphous phase. ESR measurements were determined for all glass samples to detect the nature of the doped nanoparticles when incorporated inside a glassy matrix where CuO was found as tetragonal in octahedral sites and silver can be transformed after melting inside the glass matrix into Ag+ to form more stable $$\hbox {Ag}^{x+}_{y}$$ Ag y x + clusters.The fabricated sample of CuAgB-4 with significant nano silver doping (7.32% mol) has the maximum LAc and effective atomic number. Nano silver content increases the $$\gamma$$ γ -RdSg in the lithium–zinc borosilicate glasses.

Published

2024

2. Nanofibrous Polycaprolactone Membrane with Bioactive Glass and Atorvastatin for Wound Healing: Preparation and Characterization

Author

Mohamed S. El-Okaily, Amany A. Mostafa, Judyta Dulnik, Piotr Denis, Paweł Sajkiewicz, Azza A. Mahmoud, Reham Dawood, and Amr Maged

Subjects

nanofibers, polycaprolactone, bioactive glass, coating, wound healing, Pharmacy and materia medica, RS1-441

Abstract

Skin wound healing is one of the most challenging processes for skin reconstruction, especially after severe injuries. In our study, nanofiber membranes were prepared for wound healing using an electrospinning process, where the prepared nanofibers were made of different weight ratios of polycaprolactone and bioactive glass that can induce the growth of new tissue. The membranes showed smooth and uniform nanofibers with an average diameter of 118 nm. FTIR and XRD results indicated no chemical interactions of polycaprolactone and bioactive glass and an increase in polycaprolactone crystallinity by the incorporation of bioactive glass nanoparticles. Nanofibers containing 5% w/w of bioactive glass were selected to be loaded with atorvastatin, considering their best mechanical properties compared to the other prepared nanofibers (3, 10, and 20% w/w bioactive glass). Atorvastatin can speed up the tissue healing process, and it was loaded into the selected nanofibers using a dip-coating technique with ethyl cellulose as a coating polymer. The study of the in vitro drug release found that atorvastatin-loaded nanofibers with a 10% coating polymer revealed gradual drug release compared to the non-coated nanofibers and nanofibers coated with 5% ethyl cellulose. Integration of atorvastatin and bioactive glass with polycaprolactone nanofibers showed superior wound closure results in the human skin fibroblast cell line. The results from this study highlight the ability of polycaprolactone-bioactive glass-based fibers loaded with atorvastatin to stimulate skin wound healing.

Published

2023

3. Efficient drug delivery vehicles of environmentally benign nano-fibers comprising bioactive glass/chitosan/polyvinyl alcohol composites

Author

Nour T. Abdel Ghani, Amany A. Mostafa, Mohamed S. El-Okaily, Mayyada M. H. El-Sayed, Asim Bhaumik, Amira M. EL-Rafei, and Mona Basha

Subjects

Drug, media_common.quotation_subject, 02 engineering and technology, Biochemistry, Polyvinyl alcohol, Nanocomposites, law.invention, Chitosan, 03 medical and health sciences, chemistry.chemical_compound, Structural Biology, law, Composite material, Molecular Biology, 030304 developmental biology, media_common, 0303 health sciences, Nanocomposite, technology, industry, and agriculture, General Medicine, 021001 nanoscience & nanotechnology, Electrospinning, chemistry, Delayed-Action Preparations, Polyvinyl Alcohol, Nanofiber, Bioactive glass, Drug delivery, Glass, 0210 nano-technology

Abstract

Nano-fiber composites have shown promising potential in biomedical and biotechnological applications. Herein, novel nano-fiber composites constituting a blend of polyvinyl alcohol (PVA) and chitosan (CS) along with different weight ratios of nano-bioactive glass (BG) were prepared by electrospinning. Nano-fibers incorporating 10% (by wt.) of BG were uniform, dense and defect-free with a diameter of 20-125 nm. The model osteoporotic drug (Risedronate sodium) was blended with the electrospinning forming solution and the in-vitro drug release was further studied. About 30% of the drug was released after only 30 min and the release pattern was sustained over 96 h. Drug release took place through a two-stage intra-particle diffusion mechanism. BG-incorporated nano-fibers markedly retarded the drug release profile relative to their BG-free counterparts. They also enhanced the drug release efficiency by releasing 93 ± 4% of the drug. The developed nano-fiber composites can be potentially used as drug-delivery vehicles due to their efficiency and sustained drug release capacity.

Published

2021

4. Self-healing composite with glass ionomer based microcapsules

Author

Toka Hesham Fathi Mostafa, Rania Salam, Amany Abd El Monem Mostafa, Mohamed S. El-Okaily, and Taheya Ahmed Moussa

Subjects

General Nursing, Education

Abstract

Aim: to evaluate the effect of adding an experimentally prepared microcapsule containing healing liquid to commercially available flowable composite on its fracture toughness and healing crack efficiency. Methodology: Seventy composite specimens were divided into two groups according to the material used, group C: as-received commercially available flowable composite while group HC: commercially available flowable composite modified by adding self-healing microcapsule. Preloading of the specimens with a fixed load (60 N) was done before the storage period. The fracture toughness (KIC) was measured for each group after three days of water storage. The crack healing efficiency of HC group was also evaluated mechanically, chemically and morphologically. Results: HC group revealed a statistically significant higher fracture toughness when compared to that of C group after three days of water storage. Moreover, there was significant higher percentage of crack healing efficiency recorded for the HC group (19%±2.53) when compared to that of the control group. Conclusion: The prepared healing composite model in the current study accomplished an improvement in the fracture toughness and crack healing efficiency when compared to the control group.

Published

2022

5. An in vitro / in vivo release test of risedronate drug loaded nano-bioactive glass composite scaffolds

Author

Mohamed A. Abdel Hamid, Amr Gibaly, Elham A. Hassan, Azza A. Mahmoud, Mohamed I. El-Anwar, Sara El Moshy, Amany A. Mostafa, Mona Basha, Abdelfattah A. Abdelkhalek, and Mohamed S. El-Okaily

Subjects

Drug, Scaffold, Tissue Scaffolds, media_common.quotation_subject, Composite number, Pharmaceutical Science, Polyvinyl alcohol, law.invention, Chitosan, chemistry.chemical_compound, Dogs, Pharmaceutical Preparations, chemistry, Osteogenesis, law, Bioactive glass, Bone Trabeculae, Animals, Alkaline phosphatase, Glass, Porosity, Risedronic Acid, media_common, Biomedical engineering

Abstract

Three-dimensional (3D) matrices scaffolds play a noteworthy role in promoting cell generation and propagation. In this study, scaffolds prepared from chitosan/polyvinyl alcohol loaded with/without an osteoporotic drug (risedronate) and nano-bioactive glass (nBG) have been developed to promote healing of bone defects. The scaffolds were characterized by scanning electron microscopy (SEM), porosity test as well as mechanical strength. The pattern of drug release and ability to promote the proliferation of Saos-2osteosarcoma cells had also been reported. Osteogenic potential of the scaffolds was evaluated by testing their effect on healing critical-sized dog's mandibular bone defects. Increasing chitosan and nBG in the porous scaffolds induced decrease in drug release, increased the scaffold's strength and supported their cell proliferation, alkaline phosphatase (ALP) activities, as well as increased calcium deposition. Histological and histomorphometric results demonstrated newly formed bone trabeculae inside critical-sized mandibular defects when treated with scaffolds. Trabecular thickness, bone volume/tissue volume and the percentage of mature collagen fibers increased in groups treated with scaffolds loaded with 10% nBG and risedronate or loaded with 30% nBG with/without risedronate compared with those treated with non-loaded scaffolds and empty control groups. These findings confirmed the potential osteogenic activity of chitosan/polyvinyl alcohol-based scaffolds loaded with risedronate and nBG.

Published

2021

6. In vitro kinetic investigations on the bioactivity and cytocompatibility of bioactive glasses prepared via melting and sol-gel techniques for bone regeneration applications

Author

Mayyada M. H. El-Sayed, Amany A. Mostafa, Alaa M Gaafar, Mohamed S. El-Okaily, Amira M. Gamal-Eldeen, Walid El hotaby, and Esmat Ma Hamzawy

Subjects

Materials science, Bone Regeneration, Cell Survival, Simulated body fluid, Kinetics, Biomedical Engineering, Bioengineering, Biocompatible Materials, 02 engineering and technology, In Vitro Techniques, law.invention, Cell Line, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, Dynamic light scattering, law, Materials Testing, Spectroscopy, Fourier Transform Infrared, Humans, Particle Size, Bone regeneration, Sol-gel, Osteoblasts, 030206 dentistry, 021001 nanoscience & nanotechnology, Alkaline Phosphatase, Transmission electron microscopy, Bioactive glass, Microscopy, Electron, Scanning, Particle size, Glass, 0210 nano-technology, Gels, Nuclear chemistry, Biomedical engineering

Abstract

This work investigates and compares the influence of the synthesis process on the in vitro bioactivity of two quaternary bioactive glasses prepared via melting and sol-gel (SG) techniques. The two glasses are named MG and SG, respectively. Powder samples were soaked in simulated body fluid for different time intervals to study the kinetics of Ca and P uptake onto their surface as well as Si release. The uptake kinetics followed the pseudo-second order model, and the kinetic parameters in addition to the initial rates were estimated. MG manifested higher Ca uptake capacity than SG which could be attributed to the presence of a residual organic layer capping the surface of SG, as was confirmed by Fourier transform infrared and nuclear magnetic resonance analyses. However, higher rate of Ca uptake was exhibited by SG probably due to its higher reactivity that resulted from its smaller nano-size and higher negative charge as was evident from transmission electron microscopy and dynamic light scattering measurements, respectively. Furthermore, MG showed slightly higher P uptake capacity and lower amount of Si release. Initial rates of Ca and P uptakes onto SG as well as Si release from SG exceeded those of MG. Human bone osteosarcoma cells (Saos-2) were co-cultured with both MG and SG glasses and the latter showed higher alkaline phosphatase activity and higher cell growth induction. The results showed the promising potential of using both bioactive glasses in bone regeneration. However, the choice of the appropriate bioactive glass depends on the targeted applications.

Published

2017