Elsevier

Materials Science and Engineering: C

Volume 90, 1 September 2018, Pages 589-601
Materials Science and Engineering: C

Biocompatible properties of nano-drug carriers using TiO2-Au embedded on multiwall carbon nanotubes for targeted drug delivery

https://doi.org/10.1016/j.msec.2018.04.094Get rights and content

Highlights

  • We fabricated novel biocompatible carbon nanotubes decorated with TiO2-Au nanocomposite (NC).

  • Biocompatibility studies were done on human blood cells and zebrafish embryos.

  • High antimicrobial and antibiofilm activities were observed.

  • DOX-loaded NC delivered on cancer cells, drug loading capacity was 0.45 mg/mL.

Abstract

Nanomaterial-based drug carriers have become a hot spot of research at the interface of nanotechnology and biomedicine because they allow efficient loading, targeted delivery, controlled release of drugs, and therefore are promising for biomedical applications. The current study made an attempt to decorate the multiwalled carbon nanotubes (MWCNT) with titanium dioxide‑gold nanoparticles in order to enhance the biocompatibility for doxorubicin (DOX) delivery. The successful synthesis of nano drug carrier (NDC) was confirmed by XRD, XPS and UV–Visible spectroscopy. FESEM and TEM revealed that the morphology of NDC can be controlled by manipulating the reaction duration, MWCNT concentration and TiO2-Au source concentration. Results showed that TiO2 and Au nanoparticles were well coated on MWCNT. NDC had finely tuned biocompatible properties, as elucidated by hemolytic and antimicrobial assays. NDC also showed a high antioxidant potential, 80.7% expressed as ascorbic acid equivalents. Commercial DOX drug was utilized to treat A549 and MCF7 cancer cell lines showing improved efficiency by formulating it with NDC, which selectively delivered at the pH 5.5 with drug loading capacity of 0.45 mg/mL. The drug releasing capacity achieved by NDC was 90.66% for 10 h, a performance that far encompasses a wide number of current literature reports.

Keywords

Anticancer drugs
Antimicrobial activity
Doxorubicin
Green synthesis
Nanoparticle characterization

Cited by (0)

View Abstract