Dual acting methotrexate conjugated nanocomposite for MR and CT imaging: Perspectives on therapeutic efficacy and in vivo biodistribution

[Display omitted] •Nanocomposite comprising of methotrexate aids in targeted drug delivery.•Iron and gold nanoparticles act as dual modality contrast agents for MR/CT imaging.•Biodistribution studies prove in vivo biocompatibility. Therapeutic efficacy and in vivo biodistribution of a multifunctiona...

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Bibliographic Details
Published in:Materials letters 2019-11, Vol.255, p.126583, Article 126583
Main Authors: Hemalatha, Thiagarajan, Prabu, Periyathambi, Nandagopal Gunadharini, Dharmalingam, Ramudu Kamini, Numbi, Kuppuswami Gowthaman, Marichetti
Format: Article
Language:English
Subjects:
Biocompatibility
Biodistribution
Biotechnology
Chitosan
Computed tomography
Contrast agents
Drug delivery systems
Folate receptor
In vivo methods and tests
Magnetic materials
Magnetic resonance imaging
Materials science
Medical imaging
Methotrexate
MRI/CT
Nanocomposites
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Summary:[Display omitted] •Nanocomposite comprising of methotrexate aids in targeted drug delivery.•Iron and gold nanoparticles act as dual modality contrast agents for MR/CT imaging.•Biodistribution studies prove in vivo biocompatibility. Therapeutic efficacy and in vivo biodistribution of a multifunctional nanocomposite comprising of iron/gold nanohybrid particles coated with oleyl chitosan and conjugated with methotrexate was studied. In vitro studies done using folate receptor negative (3T3 and A549) and folate receptor positive (KB and H460) cell lines revealed the therapeutic effect of nanocomposite on FR (+ve) cell lines. Imaging and biodistribution studies were carried out in vivo using mice model. Magnetic resonance and computed tomography imaging represented the use of nanocomposite as dual modality contrast agents in vivo. Biodistribution studies done in vivo exhibited no significant changes in blood/serum biochemistry and histopathology in nanocomposite injected animals. Hence, it could be conclusively stated that the nanocomposite was biocompatible in vivo and could be used for MR/CT imaging and targeted drug delivery applications.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2019.126583