2015
DOI: 10.1016/j.bios.2015.05.017
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Label-free detection of ApoE4-mediated β-amyloid aggregation on single nanoparticle uncovering Alzheimer's disease

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Cited by 62 publications
(29 citation statements)
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“…The detection limit was estimated to be 6 pM by measuring the sensor response to a dilution series and determining the target smallest concentration at which the sensor response is clearly distinguishable from the response to a blank solution. This value is comparable to that achieved by the AgNPs-or AuNPs-based LSPR techniques (0.1 or 1.5 pM), 24,31 and is significantly lower than that achieved by other methods, including molecular beacon (MB; 3.57 nM)-based, 6 graphene oxide (1 nM …”
Section: Sensitivity and Selectivitymentioning
confidence: 47%
See 1 more Smart Citation
“…The detection limit was estimated to be 6 pM by measuring the sensor response to a dilution series and determining the target smallest concentration at which the sensor response is clearly distinguishable from the response to a blank solution. This value is comparable to that achieved by the AgNPs-or AuNPs-based LSPR techniques (0.1 or 1.5 pM), 24,31 and is significantly lower than that achieved by other methods, including molecular beacon (MB; 3.57 nM)-based, 6 graphene oxide (1 nM …”
Section: Sensitivity and Selectivitymentioning
confidence: 47%
“…22,23 Therefore, the direct detection of Aβ oligomer level would be more reliable for AD diagnosis than assay of its monomer. 24,25 Recently, a few novel biosensors have been developed for the detection of Aβ oligomer, including electrochemistry, [26][27][28][29] surface plasma resonance (SPR), 30 localized surface plasmon resonance (LSPR), 24,31 fluorescence, 32,33 nuclear magnetic resonance, 34 and surface-enhanced Raman spectroscopy. 35 These methods are feasible, but they require the use of special instruments and/or relatively expensive and variable antibodies for the capture and recognition of Aβ oligomer.…”
Section: Introductionmentioning
confidence: 99%
“…The β-A aggregation is facilitated by an isoform i.e., apolipoprotein E4 (ApoE4) which is also a dominant risk factor for AD progression. An AuNP based biosensor was developed to detect ApoE4 mediated β-A deposition under biological conditions using LPSR (Kang et al 2015). ApoE4 binds with only β-A 1–42 and its specific self-assembled binding onto AuNPs surface due to charge differences was monitored using LSPR shift variation.…”
Section: State-of-the-art Of β-A Detectionmentioning
confidence: 99%
“…This sensor showed a detection limit of 1.5 pM with respect to β-A 1–42 which caused a shift of ~ 2.9 nm LSPR peak. This real time sensing method exhibited a detection limit of 1.5 pM, selective to only β-A 1–42 and could be used to explore interaction of ApoE4-Aβ complexes to optimize therapeutic targeting with label-free manner (Kang et al 2015). …”
Section: State-of-the-art Of β-A Detectionmentioning
confidence: 99%
“…Unfortunately, large and efficient SERS enhancements are commonly confined within the nanostructured metal surface, therefore, hampering the direct acquisition of the vibrational spectra of large biomolecules, such as most of the proteins. An AuNP-based biosensor showed a detection limit of 1.5 pM with respect to Aβ 1-42 in detecting ApoE4-mediated Aβ deposition under biological conditions using a localized SPR 10 . Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) is able to detect plasma Aβ in complex mixtures, which might provide better selectivity; however, it is time-consuming and needs sophisticated purifying procedures.…”
Section: Introductionmentioning
confidence: 99%