Najmeh Alizadeh scite author profile

Najmeh Alizadeh

2Publications

7Citation Statements Received

140Citation Statements Given

How they've been cited

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133

Affiliations

Islamic Azad University, Science and Research Branch, Isfahan University of Medical Sciences

Publications

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Preparation of an injectable doxorubicin surface modified cellulose nanofiber gel and evaluation of its anti‐tumor and anti‐metastasis activity in melanoma

Alizadeh

Akbari

Nurani

et al. 2018

Biotechnology Progress

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Cellulose nanofibers (Cel-NFs) gel can be considered as a useful drug carrier because of its biocompatibility, high specific surface area, and high loading capacity of drugs. Injectable Cel-NFs gel could deliver doxorubicin (DOX) for localized chemotherapy of melanoma and suppress melanoma cells migration because of the physical barrier property of Cel-NFs. We prepared DOX surface modified Cel-NFs (DOX-Cel-NFs) gel by the electrostatic attachment of DOX molecules on the surface of Cel-NFs. The increase in the zeta potential of nanofibers and the changes in the FTIR spectra of DOX-Cel-NFs compared to Cel-NFs proved this attachment. DOX-Cel-NFs showed nano-fibrous structure with an average diameter of 22.32 ± 10.66 nm after analyzing using field emission scanning electron microscopy. The suitable injectability of DOX-Cel-NFs gel verified its promising application for the localized chemotherapy. DOX-Cel-NFs gel exhibited a sustained drug release manner. The cytotoxicity results showed that DOX-Cel-NFs were more cytotoxic against melanoma cancer cells than the free DOX during 48 h incubation period. Moreover, DOX-Cel-NFs gel can suppress the melanoma cancer cells migration efficiently. Thus our results emphasize the potential of DOX-Cel-NFs gel as a chemotherapeutic agent for local delivery of DOX in order to treat melanoma and prevent its metastasis. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 34:537-545, 2018.

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Magnetic dual-responsive semi-IPN nanogels based on chitosan/PNVCL and study on BSA release behavior

et al. 2021

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Magnetic thermoresponsive nanogels present a promising new approach for targeted drug delivery. In the present study, bovine serum albumin (BSA) loaded thermo-responsive magnetic semi-IPN nanogels (MTRSI-NGs) were developed. At first poly(N-vinyl caprolactam) (PNVCL) was synthesized by free radical polymerization and then MTRSI-NGs were prepared by crosslinking chitosan in presence of chitosan and Fe 3 O 4 . The formation of MTRSI-NGs has been confirmed by FTIR, and the average molecular weight of PNVCL was determined by GPC analysis. Rheological and turbidimetry analysis were used to determine lower critical solution temperature (LCST) of PNVCL and magnetic thermo-responsive nanogels (MTRSI-NGs) around 32 and 37 °C, respectively. FE-SEM analysis showed particle size at less than 20 nm in the dried state. Dynamic light scattering determined particle size at about 30 nm in a swelling state. The analysis of release behavior showed that the BSA release ratio at 40 °C was faster than 25 °C. The pH release behavior was evaluated at pH 5.5 and 7.4 and showed that the drug release rate at pH 5.5 was more rapid than pH 7.4. The results show MTRSI-NGs are applicable to protein targeted delivery by thermosensitive targeted drug delivery systems. KeywordsMagnetic thermoresponsive nanogels • Poly(N-vinyl caprolactam) • Chitosan nanogel • Albumin release behavior • Target drug delivery • Semi-IPN nanogels * Morteza Ehsani

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Najmeh Alizadeh

Preparation of an injectable doxorubicin surface modified cellulose nanofiber gel and evaluation of its anti‐tumor and anti‐metastasis activity in melanoma

Magnetic dual-responsive semi-IPN nanogels based on chitosan/PNVCL and study on BSA release behavior

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