Shafiu Abdullahi Kamba scite author profile

Drug delivery systems are designed to achieve drug therapeutic index and enhance the efficacy of controlled drug release targeting with specificity and selectivity by successful delivery of therapeutic agents at the desired sites without affecting the non-diseased neighbouring cells or tissues. In this research, we developed and demonstrated a bio-based calcium carbonate nanocrystals carrier that can be loaded with anticancer drug and selectively deliver it to cancer cells with high specificity by achieving the effective osteosarcoma cancer cell death without inducing specific toxicity. The results showed pH sensitivity of the controlled release characteristics of the drug at normal physiological pH 7.4 with approximately 80% released within 1,200 min but when exposed pH 4.8 the corresponding 80% was released in 50 min. This study showed that the DOX-loaded CaCO 3 nanocrystals have promising applications in delivery of anticancer drugs.

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Synthesis and Characterization of Chitosan‐Saponin Nanoparticle for Application in Plasmid DNA Delivery

Bande

Arshad

Bejo

et al. 2015

Journal of Nanomaterials

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Nonviral delivery system receives attention over the last decade. Chitosan (CS) is a cationic polymer whereas saponin (SP) is classified as glycoside. In this study, a spherically-shaped CS-SP nanoparticle was synthesized and characterized. The ability of the nanoparticle to protect DNA from enzymatic degradation, its thermostability and cytotoxicity were evaluated. The particle size was found below 100 nm as determined by Zetasizer, transmission electron microscopy (TEM), and field scanning electron microscopy (FSEM) results. The surface charge ranges from 43.7 mV to 38.5 mV before and after encapsulation with DNA plasmid, respectively. In terms of thermostability, Thermal Gravimetric Analysis (TGA) and Differential Scanning Calorimetry (DSC) revealed that CS-SP nanoparticle had a melting temperature of 110°C, with rapid decomposition occurring at 120°C. Encapsulation of DNA with the synthesized nanoparticle was evidenced by changes in the FTIR spectra including characteristic peaks at 3267.39 and 1635.58 cm−1, wavenumbers. Additional peak was also observed at 1169.7 cm−1following encapsulation. Electrophoretic mobility showed that CS-SP nanoparticle protected plasmid DNA from enzymatic degradation, while cell viability assays confirmed that the synthesized nanoparticle exhibited low cytotoxicity at different concentrations in avian cells. Taken together these, CS-SP nanoparticle showed potentials for applications as a DNA delivery system.

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Shafiu Abdullahi Kamba

In Vitro Delivery and Controlled Release of Doxorubicin for Targeting Osteosarcoma Bone Cancer

Synthesis and Characterization of Chitosan‐Saponin Nanoparticle for Application in Plasmid DNA Delivery

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