Surface engineered antifouling optomagnetic SPIONs for bimodal targeted imaging of pancreatic cancer cells

Wang, Xiaohui; Xing, Xiaohong; Zhang, Bingbo; Liu, Fengjun; Cheng, Ying-Sheng; Shi, Donglu

doi:10.2147/ijn.s58334

Cited by 41 publications

(34 citation statements)

References 44 publications

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“…The cytotoxicity test of NPs on PANC‐1 cells was performed by different methods . First, the LC 50 results show that after 48 hours of exposure the toxicity for both SiO 2 ‐Fe 3 O 4 NPs and Fe 3 O 4 NPs (around 150 μg/mL) was within a biologically accepted standard deviation for both materials (see Figure ), despite the SiO 2 ‐Fe 3 O 4 NPs show a higher variance in the low concentrations, which is comparable with previous literature .…”

Section: Discussionsupporting

confidence: 83%

Synthesis and characterization of silica‐coated superparamagnetic iron oxide nanoparticles and interaction with pancreatic cancer cells

Multari

Miola

Ferraris

et al. 2018

Int J Applied Ceramic Tech

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The aim of the study is to investigate the relationship between the physico-chemical properties of superparamagnetic iron oxide nanoparticles (SPIONs) and their cytotoxicity profile in light of their potential biomedical application as nanocarriers for pancreatic cancer treatment. Two types of SPIONs were tested: magnetite nanoparticles (Fe 3 O 4 NPs) and silica-coated magnetite nanoparticles (SiO 2 -Fe 3 O 4 NPs). The physico-chemical properties of the 2 SPIONs were characterized by means of Dynamic Light Scattering (DLS), Transmission Electron Microscopy (TEM), Energy Dispersive X-ray Spectrometry (EDS), and Selected Area Electron Diffraction (SAED). Their magnetic properties were quantified as magnetization saturation (Ms) and Remanence. The colloidal stability was investigated by Isoelectric Point Measurements and sedimentation tests. Finally, in vitro characterizations were performed to quantify the half maximal lethal concentration (LC 50 ), by means of High Content Screening Analysis (HCSA), Flow cytometry (FC), and Laser Scanning Confocal Microscopy (LSCM). The obtained NPs present a spherical shape and a dimension between 10 and 20 nm, a superparamagnetic behavior and surface charge in agreement with their surface chemistry. The in vitro tests demonstrate that both NPs induce similar levels of cytotoxicity in a PANC-1 cell model and were internalized, with SiO 2 -Fe 3 O 4 NPs associated to a slightly higher cellular internalization, probably due to their higher dispersability.

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Section: Discussionsupporting

confidence: 83%

Synthesis and characterization of silica‐coated superparamagnetic iron oxide nanoparticles and interaction with pancreatic cancer cells

Multari

Miola

Ferraris

et al. 2018

Int J Applied Ceramic Tech

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“…To prepare these bioprobes, the obtained core-shell NRs were surface-modifi ed using 1,2-ethanedithiol and bovine serum albumin (BSA) based on previously reported methods. [ 61 ] Curve III in Figure 6 [ 59,60 ] After being transferred, the obtained colloidal aqueous solution was stable with very few precipitation for 3 days ( Figure S1, Supporting Information).…”

Section: Full Paper Full Paper Full Papermentioning

confidence: 99%

Synthesis of Ultrathin MnS Shell on ZnS: Mn Nanorods by One‐Step Coating and Doping for MRI and Fluorescent Imaging

Zhao

Meng

Sheng

et al. 2016

Advanced Optical Materials

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advantages of fl uorescence and MRI imaging, have attracted a great deal of attention in particular. [15][16][17] Semiconductor nanocrystals (or quantum dots) have also been of quite some interest over recent decades because of their unique optical properties and extensive applications. Compared to other inorganic fl uorescent materials, such as carbon dots, rare-earth upconversion nanocrystals, and noble-metal clusters, semiconductor nanocrystals have unique fl uorescent advantages, such as high quantum yields (QYs), long lifetime, and minimal self-absorption. [ 18,19 ] However, these semiconductor nanocrystals are not suited to widespread applications in bioimaging and cell labeling in vivo due to their high toxicity related to the intrinsic Cd (such as CdS and CdSe).Mn 2+ -doped semiconductor nanocrystal (NC) emitters have been extensively researched owing to their low toxicity and yellow emission at 570-580 nm, originating from the 4 T 1 -6 A 1 transition of the Mn 2+ on the Zn 2+ sites. [20][21][22][23][24] These properties refl ect the potential use of Mn-doped NCs as fl uorescence imaging agents. Schneider et al., for example, successfully prepared thioglycerol-capped Mn-doped ZnS quantum dots as a two-photon fl uorescent nanoprobe for fl uorescence imaging applications. [ 25 ] Wu et al. synthesized probes based on Mn-doped ZnS quantum dots to distinguish between oxidoreductase isozyme NQO1 expressing and non-expressing cancer cell lines. [ 26 ] Mn-doped ZnS quantum dots synthesized by Wu's team, when used as a new imaging moiety for eccrine latent fi ngerprints, revealed the material's potential applications in forensic science. [ 27 ] Fluorescent quantum dots of Mndoped ZnS, synthesized by Manzoor et al., also showed a high selectivity in targeted cancer imaging. [ 28 ] Because of its fi ve unpaired electrons, Mn 2+ can also produce an effi cient positive contrast enhancement as an alternative MRI contrast agent. [ 29,30 ] Compared to the commonly used Gd 3+ , Mn 2+ not only has a lower toxicity, but is also present as a trace element in ionic form in the human body. [ 31,32 ] The intrinsic properties of Mn include a high spin number, long electronic relaxation time, and good exchange with water, thus increasing the signal intensity of MRI T 1 images. At the biochemical level, Mn is involved in the mitochondrial functionthe greater the mitochondrial density in the cell, the higher the Multifunctional nanoprobes for bioimaging have attracted considerable interest in terms of their potential applications in clinical medicine and diagnosis. This article reports the fabrication of a new bifunctional nanoprobe, consisting of an ultrathin MnS shell coating on ZnS:Mn nanorods (NRs), for bioimaging in combination with fl uorescence and magnetic resonance imaging (MRI) techniques. The prepared ZnS:Mn/MnS core-shell NRs show an orange emission at 587 nm in wavelength, suggesting they are well suited for fl uorescent bio-imaging due to their large Stokes shift.After surface modifi cation, the obtained core-shell NR...

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“…BSA and its derivatives have numerous biochemical applications that include blocking agents in enzyme-linked immunosorbent assay [30], stabilizers in enzymes processing [31], ligands in surface engineering [24,32] and nanocarriers [33e35]. In this study, BSA has two roles, namely the ligands for surface engineering of hydrophobic QDs and nanocarriers for linking Gd DTPA and antibodies.…”

Section: Synthesis and Size Characterization Of Gd Dtpa•bsa@qdsmentioning

confidence: 99%

“…In this study, BSA has two roles, namely the ligands for surface engineering of hydrophobic QDs and nanocarriers for linking Gd DTPA and antibodies. Practically, BSA, as a multivalent ligand with abundant free carboxyl, amino and disulfide bonds, has been successfully used in our previous work for surface engineering of nanopaticles [24,32]. In this study, for multipurpose applications, BSA is employed with MRI moiety beforehand, and utilized for water-solubilization of hydrophobic QDs.…”

Section: Synthesis and Size Characterization Of Gd Dtpa•bsa@qdsmentioning

confidence: 99%

An “imaging-biopsy” strategy for colorectal tumor reconfirmation by multipurpose paramagnetic quantum dots

Xing¹,

Zhang²,

Wang³

et al. 2015

Biomaterials

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Surface engineered antifouling optomagnetic SPIONs for bimodal targeted imaging of pancreatic cancer cells

Cited by 41 publications

References 44 publications

Synthesis and characterization of silica‐coated superparamagnetic iron oxide nanoparticles and interaction with pancreatic cancer cells

Synthesis and characterization of silica‐coated superparamagnetic iron oxide nanoparticles and interaction with pancreatic cancer cells

Synthesis of Ultrathin MnS Shell on ZnS: Mn Nanorods by One‐Step Coating and Doping for MRI and Fluorescent Imaging

An “imaging-biopsy” strategy for colorectal tumor reconfirmation by multipurpose paramagnetic quantum dots

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