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dc.contributor.authorNguyen, Dai Hai-
dc.contributor.authorHoang Thi, Thai Thanh-
dc.date.accessioned2020-12-25T07:40:28Z-
dc.date.available2020-12-25T07:40:28Z-
dc.date.issued2020-
dc.identifier.issn2525-2518-
dc.identifier.urihttps://dspace.ctu.edu.vn/jspui/handle/123456789/41286-
dc.description.abstractPorous nanosilica (PNS) as promising targeted drug nanocarriers has become a new area of interest in recent years due to their tunable pore sizes and large pore volumes, high chemical and thermal stability, and excellent biocompatibility. These unique structures of PNS facilitate effective protecting drugs from degradation and denaturation. However, it has certain limitations for being used in pharmaceutical such as a burst release of encapsulated drugs. In this study, the effects of grafting cyclodextrin (CD) as gatekeeper through the biodegradable disulfide bonds on doxorubicin (DOX) release was investigated. The morphology and pore channel structures of these modified PNS were assessed by transmission electron microscopy (TEM). Fourier transform infrared spectroscopy (FTIR) was utilized to evaluate the functional groups on PNS surface. In vitro tests were conducted for the drug loading and releasing efficiency. The results demonstrated that the prepared DOX@PNS-SS-A/CD was of spherical shape with an average diameter of 45 nm, drug loading efficiency of 60.52 ± 2.12 %, and sustained release. More importantly, MTT assay showed that PNS-SS-A/CD was biocompatible nanocarriers. In addition, the modified PNS incorporating DOX could significantly eliminate the toxicity of free DOX. As a result, the development of PNS-SS-A/CD may offer a promising candidate for loading and sustained release of DOX in cancer therapy.vi_VN
dc.language.isoenvi_VN
dc.relation.ispartofseriesVietnam Journal of Science and Technology;Vol. 58, No. 04 .- P.450-460-
dc.subjectCyclodextrinvi_VN
dc.subjectDoxorubicinvi_VN
dc.subjectDrug delivery systemvi_VN
dc.subjectPorous nanosilicavi_VN
dc.titleDecoration of cyclodextrin on surface of porous nanosilica via disulfide bond for the controlled drug releasevi_VN
dc.typeArticlevi_VN
Appears in Collections:Vietnam journal of science and technology

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