In recent years, nanoscience has attracted considerable attention in the field of biomedicine. This involves the use of engineered nanomaterials as vital platforms for targeted drug delivery, diagnosis, imaging, and observation of therapeutic efficiency. This study explored the preparation, characterization, and applications of doxorubicin-loaded magnetic rice husk ash-derived SBA-15 (MIO@RHAS15-DOX nanocomposites) for drug delivery and in vitro/in vivo efficiency in the treatment of liver cancer. The small-angle XRD patterns of the MIO@RHAS15 nanocomposites demonstrated a core diffraction peak at 0.94°, with two noticeable peaks at 1.6° and 1.8°, representing (100), (110), and (200) crystalline planes, respectively, thereby indicating the existence of a well-defined mesostructure. A sharp melting endothermic peak (Tm) at 79 °C was observed for MIO@RHAS15 nanocomposites. The DOX release from MIO@RHAS15 followed the Higuchi model with the best correlation coefficient R2 value of 0.9799. The in vitro studies indicated a concentration dependent anticancer efficiency, with high cancer cells inhibition for MIO@RHAS15-DOX than free DOX. At the highest concentration of DOX (120 µg/mL), there was less than 25% and 15% cell viability after 24 h and 48 h, respectively. The in vivo studies demonstrated that the tumor sizes after treatment with PBS, MIO@RHAS15, free DOX, and MIO@RHS15-DOX were 1081, 904, 143, and 167 mm3, respectively. The in vivo animal test results depicted that the MIO@RHAS15-DOX nanocomposites were able to inhibit liver tumors in all tested mice. Therefore, the prepared nanocomposites possess a great potential for drug delivery application towards cancer treatment, thereby overcoming the limitations of traditional chemotherapy.
Keywords: Anticancer drug delivery; In-vitro/in-vivo evaluation; Liver cancer; Magnetic mesoporous nanocomposites; Rice husk ash derived SBA-15; Therapeutic efficacy.
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