Qixia Pan scite author profile

In this work, we report a targeted drug delivery system built by functionalizing graphene oxide (GO) with carboxymethyl chitosan (CMC), fluorescein isothiocyanate and lactobionic acid (LA). Analogous systems without LA were prepared as controls. Doxorubicin (DOX) was loaded onto the composites through adsorption. The release behavior from both the LA-functionalized and the LA-free material is markedly pH sensitive. The modified GOs have high biocompatibility with the liver cancer cell line SMMC-7721, but can induce cell death after 24h incubation if loaded with DOX. Tests with shorter (2h) incubation times were undertaken to investigate the selectivity of the GO composites: under these conditions, neither DOX-loaded system was found to be toxic to the non-cancerous L929 cell line, but the LA-containing composite showed the ability to selectively induce cell death in cancerous (SMMC-7721) cells while the LA-free analogue was inactive here also. These findings show that the modified GO materials are strong potential candidates for targeted anticancer drug delivery systems.

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Targeted delivery and controlled release of doxorubicin into cancer cells using a multifunctional graphene oxide

Tao

Bligh

et al. 2016

Materials Science and Engineering: C

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Core-Sheath Nanofibers as Drug Delivery System for Thermoresponsive Controlled Release

Pan

Bligh

et al. 2017

Journal of Pharmaceutical Sciences

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(LMZ); a.bligh@westminster.ac.uk (SWAB). AbstractThermoresponsive, polymer-based core-sheath nanofibres are of great interest as advanced materials because they are capable of responding to external stimuli and delivering drugs as part of release strategy. Core-sheath nanofibers were constructed by using thermoresponsive poly-(N-isopropylacrylamide) (PNIPAAm) (as core) and hydrophobic ethylcellulose (EC) (as sheath) by coaxial electrospinning. Analogous medicated nanofibers were prepared by loading with a model drug ketoprofen (KET).The fibers were cylindrical without phase separation and have visible core-sheath structure as shown by scanning and transmission electron microscopy. X-ray diffraction patterns demonstrated the drug with the amorphous physical form was present in the fiber matrix. Fourier transform infrared spectroscopy analysis was conducted, finding that there were significant intermolecular interactions between KET and the polymers. Water contact angle measurements proved that the hydrophilic hydrophobic transformation of core-sheath fibers had taken place when the temperature reached the lower critical solution temperature. In vitro drug-release study of nanofibers with KET displayed that the coaxial nanofibers were able to synergistically combine the characteristics of the two polymers producing a temperature-sensitive drug delivery system with sustained release properties. In addition, they were established to be non-toxic and suitable for cell growth. These findings show that the core-sheath nanofiber is a potential candidate for controlled drug delivery system.

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Qixia Pan

Lactobionic acid and carboxymethyl chitosan functionalized graphene oxide nanocomposites as targeted anticancer drug delivery systems

Targeted delivery and controlled release of doxorubicin into cancer cells using a multifunctional graphene oxide

Core-Sheath Nanofibers as Drug Delivery System for Thermoresponsive Controlled Release

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