2015
DOI: 10.1039/c5nr00194c
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Anti-epidermal growth factor receptor conjugated mesoporous zinc oxide nanofibers for breast cancer diagnostics

Abstract: We report the fabrication of an efficient, label-free, selective and highly reproducible immunosensor with unprecedented sensitivity (femto-molar) to detect a breast cancer biomarker for early diagnostics. Mesoporous zinc oxide nanofibers (ZnOnFs) are synthesized by electrospinning technique with a fiber diameter in the range of 50-150 nm. Fragments of ZnOnFs are electrophoretically deposited on an indium tin oxide glass substrate and conjugated via covalent or electrostatic interactions with a biomarker (anti… Show more

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Cited by 117 publications
(66 citation statements)
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“…There are many methods such as melt, colloid, solution, dry and co-axial electrospinning, CVD, PECVD, and electrochemical methods that are used to yield metal oxide and nanofibers [14,15,[104][105][106][107][108]. In recent times, electrospun metal oxides' precursors have garnered much interest for the production of multifunctional nanofibers [109,110].…”
Section: Metal Oxide Nanofibersmentioning
confidence: 99%
“…There are many methods such as melt, colloid, solution, dry and co-axial electrospinning, CVD, PECVD, and electrochemical methods that are used to yield metal oxide and nanofibers [14,15,[104][105][106][107][108]. In recent times, electrospun metal oxides' precursors have garnered much interest for the production of multifunctional nanofibers [109,110].…”
Section: Metal Oxide Nanofibersmentioning
confidence: 99%
“…However, biosensors designed for the detection of cancer biomarkers of clinical interest are quasi-exclusively immunosensors (Wang et al, 2008;Jie et al, 2010;Lin et al, 2011;Zhang et al, 2012;Hao et al, 2012;Tang et al, 2014;Ali et al, 2015;, which could be cost-effective for some of them. Despite the fact that our F6P-biosensor uses affordable reagents for its design, its sensing performances are remarkably high when compared to reported electrochemical immunosensors in term of LD and linear range (Table 1).…”
Section: Comparison Of Sensing Performancesmentioning
confidence: 99%
“…Especially during the early stages of the disease, biomarker concentration is at ultra‐low level . Nanofiber‐based biosensors provide promising horizon on the early cancer detection such as electrochemical biosensor based on CNTs doped nylon6/poly(thionine) (CNT‐PA6‐PTH) electrospun nanofibers for K‐ras gene mutations detection (in concentration just only 30 f m ), Pd functionalized WO 3 nanofibers as a gas sensor sensitive to toluene in lung cancer detection (Rair/Rgas = 1.32), fluorescent chemosensor based on a dendritic zinc porphyrin (Den‐Por(Zn)) electrospun nanofibrous membrane for detection of histamine in urine as a biomarker for cancer detection, anti‐epidermal growth factor receptor conjugated mesoporous zinc oxide nanofibers as an immunosensor with unprecedented sensitivity (femtomolar) to detect breast cancer, and electrochemical detection of cathepsin B activity in breast cancer cell lysates using carbon nanofiber . Electrochemical biosensors based on unique properties such as rapid sensing, low cost, portability, and ease of use have been offered in the diagnosis of cardiovascular diseases (CVDs).…”
Section: Biosensors and Health Monitoring Systemmentioning
confidence: 99%