4.7 Article

The Employment of the Surface Plasmon Resonance (SPR) Microscopy Sensor for the Detection of Individual Extracellular Vesicles and Non-Biological Nanoparticles

Journal

BIOSENSORS-BASEL
Volume 13, Issue 4, Pages -

Publisher

MDPI
DOI: 10.3390/bios13040472

Keywords

surface plasmon resonance (SPR); SPR microscopy; extracellular vesicles; viruses; virus-like particles; sensor imaging; deep learning; imaging artifacts; sensor-actuator coupling

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This study introduces a wide-field surface plasmon resonance microscopy sensor that utilizes the surface plasmon resonance phenomenon to detect biological and non-biological nanoparticles. The sensor is able to detect and quantify biological nanoparticles without the need for labeling, using target-specific antibodies. The research also includes modifications to the optical sensor system and evaluates their effectiveness.
A wide-field surface plasmon resonance (SPR) microscopy sensor employs the surface plasmon resonance phenomenon to detect individual biological and non-biological nanoparticles. This sensor enables the detection, sizing, and quantification of biological nanoparticles (bioNPs), such as extracellular vesicles (EVs), viruses, and virus-like particles. The selectivity of bioNP detection does not require biological particle labeling, and it is achieved via the functionalization of the gold sensor surface by target-bioNP-specific antibodies. In the current work, we demonstrate the ability of SPR microscopy sensors to detect, simultaneously, silica NPs that differ by four times in size. Employed silica particles are close in their refractive index to bioNPs. The literature reports the ability of SPR microscopy sensors to detect the binding of lymphocytes (around 10 mu m objects) to the sensor surface. Taken together, our findings and the results reported in the literature indicate the power of SPR microscopy sensors to detect bioNPs that differ by at least two orders in size. Modifications of the optical sensor scheme, such as mounting a concave lens, help to achieve homogeneous illumination of a gold sensor chip surface. In the current work, we also characterize the improved magnification factor of the modified SPR instrument. We evaluate the effectiveness of the modified and the primary version of the SPR microscopy sensors in detecting EVs isolated via different approaches. In addition, we demonstrate the possibility of employing translation and rotation stepper motors for precise adjustments of the positions of sensor optical elements-prism and objective-in the primary version of the SPR microscopy sensor instrument, and we present an algorithm to establish effective sensor-actuator coupling.

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