Maryam Saadat scite author profile

The aim of this review was to describe the preferred charged nano-particles (CNPs) for targeted delivery in tumor cells. Zeta Potential (ZP), which represents the surface charge of NPs was highlighted in cell entrance and interactions. In this regard, various types of endocytosis pathways which are involved in NPs’ uptake were first introduced. Then, significance of positively charged NPs (PCNPs) in proton sponge effect corresponding to lysosomal escape was discussed. Cells prefer to endocyte the NPs with positive charge in passive targeting and gene delivery, while in active targeting; the charge of receptors’ ligand binding site determines the NPs cellular uptake. Moreover, pH-sensitive NPs represent charge reversible behavior depending on pH changes which leads to longer blood circulation residence and higher uptake at acidic microenvironment of the cancer media. Role of the CNPs in overcoming multidrug resistance (MDR) and bypassing p-glycoprotein was further investigated.

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Synthesis of gold nanoparticles using pH-sensitive hydrogel and its application for colorimetric determination of acetaminophen, ascorbic acid and folic acid

Bahram

Hoseinzadeh

Farhadi

et al. 2014

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Drug delivery of pH-Sensitive nanoparticles into the liver cancer cells

Saadat

Mostafaei

Mahdinloo

et al. 2021

Journal of Drug Delivery Science and Technology

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Oral delivery of solid lipid nanoparticles: underlining the physicochemical characteristics and physiological condition affecting the lipolysis rate

Mahmoudian

Dizaj

Salatin

et al. 2021

Expert Opinion on Drug Delivery

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Maryam Saadat

Liposome and immune system interplay: Challenges and potentials

Drug Targeting Strategies Based on Charge Dependent Uptake of Nanoparticles into Cancer Cells

Synthesis of gold nanoparticles using pH-sensitive hydrogel and its application for colorimetric determination of acetaminophen, ascorbic acid and folic acid

Drug delivery of pH-Sensitive nanoparticles into the liver cancer cells

Oral delivery of solid lipid nanoparticles: underlining the physicochemical characteristics and physiological condition affecting the lipolysis rate

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