Sizing Nanomatter in Biological Fluids by Fluorescence Single Particle Tracking

Braeckmans, Kevin; Buyens, Kevin; Bouquet, Wim; Vervaet, Chris; Joye, Philippe; Vos, Filip De; Laurent, Pascale; Doeuvre, Loïc; Anglès-Cano, Eduardo; Sanders, Niek N.; Demeester, Jo; Smedt, Stefaan C. De

doi:10.1021/nl103264u

Cited by 142 publications

(106 citation statements)

References 37 publications

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“…This leads to a distribution of diffusion coefficients when many particles are analysed. A maximum entropy deconvolution step can subsequently be applied to this distribution to reduce sampling noise and improve its precision 11 . The distribution of diffusion coefficients can be converted to a size distribution via the Stokes-Einstein relation.…”

Section: Methodsmentioning

confidence: 99%

“…Specifically, due to a lack of standardized isolation and purification protocols and in order to avoid manipulation artefacts, techniques capable of performing MV characterization directly in body fluids are urgently needed 2,9,10 . Fluorescence Single Particle Tracking (fSPT) was recently shown to be the first technique capable of accurately measuring the size distribution and number concentration of fluorescently labelled nanoparticles in undiluted biofluids, such as whole blood 11,12 . However, being based on epi-fluorescence microscopy, a limitation of the technique is limited contrast due to fluorescence coming from out-of-focus particles or unbound fluorescent dye, as illustrated in Figure 1a.…”

Section: Introductionmentioning

confidence: 99%

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On-chip light sheet illumination enables diagnostic size and concentration measurements of membrane vesicles in biofluids

et al. 2014

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Cell-derived membrane vesicles that are released in biofluids, like blood or saliva, are emerging as potential non-invasive biomarkers for diseases, such as cancer. Techniques capable of measuring the size and concentration of membrane vesicles directly in biofluids are urgently needed. Fluorescence Single Particle Tracking microscopy has the potential of doing exactly that, by labelling the membrane vesicles with a fluorescent label and analysing their Brownian motion in the biofluid. However, unbound dye in the biofluid can cause high background intensity that strongly biases the fluorescence Single Particle Tracking size and concentration measurements. While such background can be avoided with light sheet illumination, current set-ups require specialty sample holders that are not compatible with high-throughput diagnostics. Here, a microfluidic chip with integrated light sheet illumination is reported, and accurate fluorescence Single Particle Tracking size and concentration measurements of membrane vesicles in cell culture medium and in interstitial fluid collected from primary human breast tumours are demonstrated.3

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

On-chip light sheet illumination enables diagnostic size and concentration measurements of membrane vesicles in biofluids

et al. 2014

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“…Nanoparticle concentration determined by fluorescence single particle tracking Fluorescence single particle tracking (fSPT) is a technique that monitors the diffusional movement of individual fluorescently labeled nanoparticles using a highly sensitive fluorescence microscope setup as described in [25]. Besides the size of nanoparticles, this technique also allows to accurately measure the absolute number concentrations of nanoparticles dispersed in complex biological fluids [26].…”

Section: Purification Of the Pulmonary Surfactant-coated Nanogelsmentioning

confidence: 99%

“…A fast and sensitive EMCCD camera (Ixon Ultra 897; Andor Technology, South Windsor, USA) recorded high-speed movies of the individual particles diffusing in the dispersion. Particle trajectories were subsequently calculated using inhouse developed software [25]. In this work, the technique was used to simultaneously determine the concentration of fluorescently-labeled siNGs and empty pulmonary surfactant present in the surfactant-coated siNG dispersion, before and after purification.…”

Section: Purification Of the Pulmonary Surfactant-coated Nanogelsmentioning

confidence: 99%

“…As described earlier, this technique allows accurate quantification of absolute number concentrations of fluorescently labeled nanoparticles in complex mixtures [25,26]. To distinguish both particle types, Curosurf ® was fluorescently labeled by insertion of the green fluorescent lipid-like dye DiO, while NGs were loaded with red fluorescent siRNA (siCy5).…”

Section: Purification Of the Pulmonary Surfactant-coated Nanogelsmentioning

confidence: 99%

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Hybrid pulmonary surfactant-coated nanogels mediate efficient in vivo delivery of siRNA to murine alveolar macrophages

Backer

Naessens

Koker

et al. 2015

Journal of Controlled Release

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The local delivery of small interfering RNA (siRNA) to the lungs may provide a therapeutic solution to a range of pulmonary disorders. Resident alveolar macrophages (rAM) in the bronchoalveolar lumen play a critical role in lung inflammatory responses and therefore constitute a particularly attractive target for siRNA therapeutics. However, achieving efficient gene silencing in the lung while avoiding pulmonary toxicity requires appropriate formulation of siRNA in functional nanocarriers. In this study, we evaluated pulmonary surfactant-coated dextran nanogels for the delivery of siRNA to rAM upon pharyngeal aspiration in BALB/c mice. Both the surfactant-coated and uncoated nanogels achieved high levels of siRNA uptake in rAM, yet only the surfactant-coated formulation could significantly reduce gene expression on the protein level. Surfactant-coated nanogels induced a profound downregulation of target mRNA levels, reaching 70% knockdown with ~1 mg kg -1 siRNA dose. In addition, only mild acute pro-inflammatory cytokine and chemokine responses were detected one day after nanoparticle aspiration, accompanied by a moderate neutrophil infiltration in the bronchoalveolar lumen. The latter could be substantially reduced by removal of excess surfactant from the formulation. Overall, our hybrid core-shell nanoparticles have demonstrated safe and effective siRNA delivery to rAM, providing a new therapeutic approach for treatment of inflammatory pathologies in the lung.

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Biodistribution of Polymeric, Polysaccharide and Metallic Nanoparticles

Erdoğar

Varan

et al. 2020

Characterization of Pharmaceutical Nano and Microsystems

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Sizing Nanomatter in Biological Fluids by Fluorescence Single Particle Tracking

Cited by 142 publications

References 37 publications

On-chip light sheet illumination enables diagnostic size and concentration measurements of membrane vesicles in biofluids

On-chip light sheet illumination enables diagnostic size and concentration measurements of membrane vesicles in biofluids

Hybrid pulmonary surfactant-coated nanogels mediate efficient in vivo delivery of siRNA to murine alveolar macrophages

Biodistribution of Polymeric, Polysaccharide and Metallic Nanoparticles

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