Shape anisotropy enhanced optomagnetic measurement for prostate-specific antigen detection via magnetic chain formation
2017
Tian, Bo | Wetterskog, Erik | Qiu, Zhen | Zardán Gómez de la Torre, Teresa | Donolato, Marco | Fougt Hansen, Mikkel | Svedlindh, Peter | Strömberg, Mattias
We demonstrate a homogeneous biosensor for the detection of multivalent targets by combination of magnetic nanoparticle (MNP) chains and a low-cost 405nm laser-based optomagnetic system. The MNP chains are assembled in a rotating magnetic field and stabilized by multivalent target molecules. The number of chains remaining in zero field is proportional to the target concentration, and can be quantified by optomagnetic measurements. The shape anisotropy of the MNP chains enhances the biosensor system in terms of providing efficient mixing, reduction of depletion effects (via magnetic shape anisotropy), and directly increasing the optomagnetic signal (via optical shape anisotropy). We achieve a limit of detection (LOD) of 5.5pM (0.82ng/mL) for the detection of a model multivalent molecule, biotinylated anti-streptavidin, in PBS. For the measurements of prostate-specific antigen (PSA) in 50% serum using the proposed method, we achieve an LOD of 21.6pM (0.65ng/mL) and a dynamic detection range up to 66.7nM (2µg/mL) with a sample-to-result time of approximately 20min. The performance for PSA detection therefore well meets the clinical requirements in terms of LOD (the threshold PSA level in blood is 4ng/mL) and detection range (PSA levels span from < 0.1–10⁴ng/mL in blood), thus showing great promise for routine PSA diagnostics and for other in-situ applications.
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