Biotechnology
Zainab S. Abbas; Ghassan M. Sulaiman; Majid S. Jabir; Hamdoon A. Mohammed; Salman A. A. Mohammed
Abstract
Galangin, a non-toxic phytochemical, is known to have a variety of therapeutic uses. This study looked into the role of inclusion complexes of galangin/β-cyclodextrin in increasing antioxidant activity over pure galangin. The role of this inclusion complex in increasing antioxidant activity in comparison ...
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Galangin, a non-toxic phytochemical, is known to have a variety of therapeutic uses. This study looked into the role of inclusion complexes of galangin/β-cyclodextrin in increasing antioxidant activity over pure galangin. The role of this inclusion complex in increasing antioxidant activity in comparison to pure galangin. In this study, hydrogen peroxide assays were used in vitro. Galangin demonstrated concentration-dependent scavenging action in the 2-50 µg mL-1 range, with the highest level of activity possible 92.00% at 50 µg mL-1. In pure galangin, a decrease of 85.00% was observed. The ferric thiocyanate lipoperoxidation method was clarified by using galangin and galangin/β-cyclodextrin and demonstrated concentration-dependent suppress lipid peroxidation in the 2-50 µg mL-1 range, at 50 µg mL-1, the highest level of activity was 70.00%. A 60.00% decrease in pure galangin was observed. Xanthine oxidase activity using uric acid was given. The co-incubation of galangin and galangin/β-cyclodextrin inhibited xanthine oxidase activity in a concentration-dependent manner in 2-50 µg mL-1 range, at 50 µg mL-1, the highest level of activity was 90.00%. Pure galangin showed an 82.00% decrease. There were no significant differences in absolute weight of mice organs and hematological parameters between pure galangin and galangin/ β-cyclodextrin when used concentration 80 mg kg-1, compared to control group. According to the findings, galangin combined with β-cyclodextrin has excellent properties as a therapeutic agent and food supplement.
Biotechnology
Ali A. Al-Jubori; Ghassan M. Sulaiman; Amer T. Tawfeeq
Abstract
Resveratrol (RES) is a bioactive molecule with potent antioxidant properties, and it constitutes an essential component of herbal medicine. This study was designed to use a nano-syntheses approach to encapsulate RES in Poloxamer 407 nanoparticles. This type of nano-construction has been employed in a ...
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Resveratrol (RES) is a bioactive molecule with potent antioxidant properties, and it constitutes an essential component of herbal medicine. This study was designed to use a nano-syntheses approach to encapsulate RES in Poloxamer 407 nanoparticles. This type of nano-construction has been employed in a variety of biological applications, both in vitro and in vivo. The contribution of this nano-construct is to increase antioxidant activity over the pure RES was investigate. 1,1-diphenyl-2-picryl hydrazyl (DPPH), and hydrogen peroxide radical scavenging assays were utilized in vitro. RES-loaded poloxamer 407 showed concentration-dependent scavenging action in the range of 20-80 µg.ml-1, with a maximum activity of 80.1% at 80 µg.ml-1. Whereas pure RES had a decrement of 61.7%. While the activity of positive control (Vit. C) was 93.2%. The magnitude of blood hemolysis examination was 3.9% at 80 µg.ml-1. That may indicate RES-loaded poloxamer 407 provide significant red blood cell protection. The pure RES did not prevent the appearance of abnormal cells (echinocytes), and that was cured by RES-loaded poloxamer 407. Finally, the safety of RES-loaded poloxamer 407 was assessed in vivo. Male mice were invested to detect the functions of their liver and kidney. A histopathological study was included as well. The findings showed that RES-loaded poloxamer 407 might have superior characters as a drug delivery system, nutritional supplements, and may be used in pharmaceutical products.