期刊
INTERNATIONAL JOURNAL OF NANOMEDICINE
卷 17, 期 -, 页码 2139-2163出版社
DOVE MEDICAL PRESS LTD
DOI: 10.2147/IJN.S355007
关键词
label free imaging; nanoparticle detection; non-fluorescent imaging; reflectance imaging; holotomography; scattering microscopy
资金
- Else Kroner Fresenius Stiftung, Bad Homburg v.d. H., Germany [2018_A88]
- Deutsche Forschungsgemeinschaft
- FriedrichAlexander-Universitat Erlangen-Nurnberg
Label-free detection of nanoparticles is crucial for evaluating their effects on cells, especially for medical applications. The use of labeling alters the properties of particles and their interactions with surrounding tissues, making label-free techniques essential for reliable characterization of nanoparticles.
Label-free detection of nanoparticles is essential for a thorough evaluation of their cellular effects. In particular, nanoparticles intended for medical applications must be carefully analyzed in terms of their interactions with cells, tissues, and organs. Since the labeling causes a strong change in the physicochemical properties and thus also alters the interactions of the particles with the surrounding tissue, the use of fluorescently labeled particles is inadequate to characterize the effects of unlabeled particles. Further, labeling may affect cellular uptake and biocompatibility of nanoparticles. Thus, label-free techniques have been recently developed and implemented to ensure a reliable characterization of nanoparticles. This review provides an overview of frequently used label-free visualization techniques and highlights recent studies on the development and usage of microscopy systems based on reflectance, darkfield, differential interference contrast, optical coherence, photothermal, holographic, photoacoustic, total internal reflection, surface plasmon resonance, Rayleigh light scattering, hyperspectral and reflectance structured illumination imaging. Using these imaging modalities, there is a strong enhancement in the reliability of experiments concerning cellular uptake and biocompatibility of nanoparticles, which is crucial for preclinical evaluations and future medical applications.
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