Your search keyword '"Soliman, Wafaa"' showing total 4 results

1. Date Palm Extract (Phoenix dactylifera) Encapsulated into Palm Oil Nanolipid Carrier for Prospective Antibacterial Influence.

Author

Elsewedy, Heba S., Shehata, Tamer M., Alqahtani, Nashi K., Khalil, Hany Ezzat, and Soliman, Wafaa E.

Subjects

TOPICAL drug administration, DATE palm, NATURAL products, HYDROGELS, EXTRACTS, ANTIBACTERIAL agents, VISCOSITY

Abstract

It is worthwhile to note that using natural products today has shown to be an effective strategy for attaining the therapeutic goal with the highest impact and the fewest drawbacks. In Saudi Arabia, date palm (Phoenix dactylifera) is considered the principal fruit owing to its abundance and incredible nutritional benefits in fighting various diseases. The main objective of the study is to exploit the natural products as well as the nanotechnology approach to obtain great benefits in managing disorders. The present investigation focused on using the powder form of date palm extract (DPE) of Khalas cultivar and incorporates it into a nanolipid formulation such as a nanostructured lipid carrier (NLC) prepared with palm oil. Using the quality by design (QbD) methodology, the most optimized formula was chosen based on the number of assigned parameters. For more appropriate topical application, the optimized DP-NLC was combined with a pre-formulated hydrogel base forming the DP-NLC-hydrogel. The developed DP-NLC-hydrogel was evaluated for various physical properties including pH, viscosity, spreadability, and extrudability. Additionally, the in vitro release of the formulation as well as its stability upon storage under two different conditions of room temperature and refrigerator were investigated. Eventually, different bacterial strains were utilized to test the antibacterial efficacy of the developed formulation. The optimized DP-NLC showed proper particle size (266.9 nm) and in vitro release 77.9%. The prepared DP-NLC-hydrogel showed acceptable physical properties for topical formulation, mainly, pH 6.05, viscosity 9410 cP, spreadability 57.6 mm, extrudability 84.5 (g/cm2), and in vitro release 42.4%. Following three months storage under two distinct conditions, the formula exhibited good stability. Finally, the antibacterial activity of the developed DP-NLC-hydrogel was evaluated and proved to be efficient against various bacterial strains. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tea Tree Oil Nanoemulsion-Based Hydrogel Vehicle for Enhancing Topical Delivery of Neomycin.

Author

Elsewedy, Heba S., Shehata, Tamer M., and Soliman, Wafaa E.

Subjects

TEA tree oil, HYDROGELS, NEOMYCIN, FACTORIAL experiment designs, BACTERIAL growth, ANTIBACTERIAL agents

Abstract

The present investigation aims to improve the antimicrobial influence of certain antibacterial drugs, namely, neomycin (NEO), exploiting the benefits of natural oils such as tea tree oil (TTO). Therefore, a distinctive nanolipid formulation, namely, a nanoemulsion (NE), was developed using a Central Composite Factorial Design (CCD) approach depending on the amount of TTO and tween 80 as surfactant. The optimized NEO-NE formula exhibiting minimum globular size and maximum in vitro release was selected. For efficient topical delivery, NEO-NE was incorporated into a pre-formulated hydrogel. The developed NEO-NE-hydrogel was characterized by its physical characteristics such as pH, viscosity, and spreadability. Next, it was tested for stability under different conditions for 3 months. Ultimately, an irritation test was conducted followed by an antibacterial examination. The preparation demonstrated acceptable properties to be successfully applied topically. It showed non-significant changes in stability in both conditions up to 3 months storage when compared to a fresh preparation. It exhibited no irritation when applied on hairless animal skin. Finally, TTO revealed a good inhibition for the bacterial growth that could improve the influence of NEO antibacterial activity, indicating the efficiency of NE containing NEO prepared with TTO to be a promising antibacterial nanocarrier. [ABSTRACT FROM AUTHOR]

Published

2022

3. Novel Formulation of Fusidic Acid Incorporated into a Myrrh-Oil-Based Nanoemulgel for the Enhancement of Skin Bacterial Infection Treatment.

Author

Almostafa, Mervt M., Elsewedy, Heba S., Shehata, Tamer M., and Soliman, Wafaa E.

Subjects

HYDROGEN bonding, HYDROGELS, QUADRUPLETS, HYDROPHOBIC interactions, SYNERGETICS

Abstract

Fusidic acid (FA) is renowned as an effective bacteriostatic agent obtained from the fungus Fusidium coccineum, used for treating various eye and skin disorders. The objective of the present study was to develop, characterize, and evaluate the antibacterial activity of a novel FA nanoemulgel for topical skin application. Primarily, various fusidic acid nanoemulsion formulations were fabricated using different concentrations of myrrh essential oil, Tween 80 as a surfactant, and Transcutol® P as a co-surfactant. A Box–Behnken design was employed to select the optimized FA nanoemulsion formulation, based on the evaluated particle size and % of in vitro release as dependent variables. The optimized formula was incorporated within a hydrogel to obtain an FA nanoemulgel (FA-NEG) preparation. The formulated FA-NEG was evaluated for its visual appearance, pH, viscosity, and spreadability, compared to its corresponding prepared fusidic acid gel. In vitro release, kinetic study, and ex vivo drug permeation were implemented, followed by formulation stability testing. The FA-NEG exhibited a smooth and homogeneous appearance, pH value (6.61), viscosity (25,265 cP), and spreadability (33.6 mm), which were all good characteristics for appropriate topical application. A total of 59.3% of FA was released from the FA-NEG after 3 h. The ex vivo skin permeability of the FA-NEG was significantly enhanced by 3.10 ± 0.13-fold, showing SSTF of 111.2 ± 4.5 µg/cm2·h when compared to other formulations under investigation (p < 0.05). No irritation was observed upon applying the FA-NEG to animal skin. Eventually, it was revealed that the FA-NEG displayed improved antibacterial activity against a wide variety of bacteria when compared to its corresponding FA gel and marketed cream, indicating the prospective antibacterial effect of myrrh essential oil. In conclusion, the recommended formulation offers a promising antibacterial approach for skin infections. [ABSTRACT FROM AUTHOR]

Published

2022

4. Nanoemulsion based hydrogel: A promising platform for potential anti-inflammatory action of date palm extract.

Author

Shehata, Tamer M., Elsewedy, Heba S., Alqahtani, Nashi K., Soliman, Wafaa E., Mohamed, Hisham, and Khalil, Hany Ezzat

Subjects

*RESPONSE surfaces (Statistics), *DATES (Fruit), *NATURAL products, *HYDROGELS, *VISCOSITY, *OLIVE oil

Abstract

It is beyond doubt that employing natural products in medicinal application reflected to be a successful approach for managing various diseases owing to their effectiveness, affordability and least side effects. Date palm fruit (Phoenix dactylifera) is regarded the main fruit in Saudi Arabia since it possesses various biological behaviors including anti-inflammatory influence. In current study, Date palm extract (DPE) of Reziz cultivar was subjected to several phases until getting into a powder extract form. Within the scope of known investigations, this is the first time, to incorporate Date palm extract (DPE) into nanoemulsion (NE) nanocarrier prepared with olive oil to develop a novel DPE-NE. Using response surface methodology, various NEs were developed and best of them was selected based on various assigned parameters mainly; particle size and in vitro release. The optimized DPE-NE was incorporated into pre-formulated hydrogel that was characterized for various properties including pH, viscosity and spreadability. DPE-NE-based hydrogel was examined for the in vitro release of the drug over 6 hours, kinetic study, and for its stability over 3 months storage at two different conditions 4 ± 2 °C and 25 ± 3 °C. Finally, the formulation was examined for any possible skin irritation and for its anti-inflammatory action on rat hind paw induced with edema. Homogenous NE formulations were prepared, with the optimized one showed appropriate particle size (168.33 nm) and in vitro release 86.5 %. The developed DPE-NE-based hydrogel exhibited pH 6.14, viscosity 27920 cP, spreadability 51.3 mm and in vitro release 41.1 %. The formulation exhibited a non-significant difference in all evaluated parameters upon storage at two different conditions. Moreover, the formulation was safe exhibiting no skin irritation over the whole period of the study. Ultimately, the pharmacological activity of the developed DPE-NE-based hydrogel revealed potential anti-inflammatory influence. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024