Abstract
Doxycycline (DOX) and amoxicillin (AMOX) are important Broad-spectrum antibiotics used in treating multiple human and animal diseases. For the sake of exploring novel medical applications, both antibiotics were loaded into magnesium aluminium layer double hydroxide (Mg-Al)/LDH nanocomposite through the co-precipitation method. The synthesized materials were characterized by XRD, FT-IR, particle size analysis, FESEM and HRTEM. Acute toxicological studies were conducted using median lethal dose LD50, where a total number of 98 rats (200–150 gm) of both sexes were used. An experimental wound was aseptically incised on the anterior-dorsal side of each rat, while 98% of pure medical ethanol was used for ulcer induction. Acute toxicity, wound closure rate, healing percentages, ulcer index, protective rate and histopathological studies were investigated. Antibiotic Nanocomposites has significantly prevented ulcer formation and improved wound healing process to take shorter time than that of the typical processes, when compared with that of same drugs in microscale systems or commercial standard drugs. These results were confirmed by the histopathological findings. By converting it into the Nanoform, which is extremely important, especially with commonly used antibiotics, novel pharmacological properties were acquired from the antibiotics. The safe uses of DOX/LDH and AMOX/LDH Nanocomposites in this study were approved for biomedical applications.
Highlights
For complete recovery, the recuperation of wounds in individual hosts involves various biological processes
Unlike Nano antibiotics characterized by its higher penetrating power and its ability to reach the H. pylori bacteria existing in the epithelial lining
The XRD results confirm the structure of the Layered double hydroxides (LDHs) relative to ICDD card no (00-048-0601)[18]
Summary
The recuperation of wounds in individual hosts involves various biological processes. Unlike Nano antibiotics characterized by its higher penetrating power and its ability to reach the H. pylori bacteria existing in the epithelial lining. Disadvantages of antibiotics such as overdoses, toxicity, resistance, stability and solubility can all be controlled via using nanomaterials in Drug delivery. Reformulations of antibiotics using nanoparticles or nanocomposites have greater advantages, with regard to its gastrointestinal adhesion to the mucous or wound area penetration power, due to its small size. They give a superior activity against the H. pylori bacteria[7]. The localization of this drug will increase its efficacy and decrease the repeated dosage administration
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