Integrated photonics multi-waveguide devices for optical trapping and Raman spectroscopy: design, fabrication and performance demonstration

Karuna, Arnica; Fanood, Mohammad M. Rafiee; Schreuder, Erik; Caro, J.

doi:10.3762/bjnano.11.68

Cited by 7 publications

(2 citation statements)

References 15 publications

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“…1, FAU; 2, excitation-waveguide circuitry; 3, microfluidic bath with the central trapping region; 4, detection-waveguide circuitry; 5, light from the trap that is coupled out by the detection waveguides. Here, the detection waveguides collect light as a result of direct illumination and scattering (from Loozen et al(53)). (B) Device type 2: Spiral waveguide with the Raman pump light traveling inside the waveguide.…”

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confidence: 99%

Cancer-ID: Toward Identification of Cancer by Tumor-Derived Extracellular Vesicles in Blood

et al. 2020

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Extracellular vesicles (EVs) have great potential as biomarkers since their composition and concentration in biofluids are disease state dependent and their cargo can contain disease-related information. Large tumor-derived EVs (tdEVs, >1 µm) in blood from cancer patients are associated with poor outcome, and changes in their number can be used to monitor therapy effectiveness. Whereas, small tumor-derived EVs (<1 µm) are likely to outnumber their larger counterparts, thereby offering better statistical significance, identification and quantification of small tdEVs are more challenging. In the blood of cancer patients, a subpopulation of EVs originate from tumor cells, but these EVs are outnumbered by non-EV particles and EVs from other origin. In the Dutch NWO Perspectief Cancer-ID program, we developed and evaluated detection and characterization techniques to distinguish EVs from non-EV particles and other EVs. Despite low signal amplitudes, we identified characteristics of these small tdEVs that may enable the enumeration of small tdEVs and extract relevant information. The insights obtained from Cancer-ID can help to explore the full potential of tdEVs in the clinic.

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confidence: 99%

Cancer-ID: Toward Identification of Cancer by Tumor-Derived Extracellular Vesicles in Blood

et al. 2020

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“…Later on, they experimentally demonstrated dual-waveguide optical traps based on a composite SiO 2 -Si 3 N 4 waveguide structure called the TripleX platform [18][19][20], on which they successfully trapped polystyrene beads and realised on-chip single-beam Raman spectroscopy. Recently, They also proposed and demonstrated a multi-waveguides device for trapping and Raman spectroscopy [21]. Olav Gaute Hellesø demonstrated similar dualwaveguide optical traps using waveguide loops made of 150-180nm tantalum pentoxide (Ta 2 O 5 ) on oxidised silicon substrates, where polystyrene microspheres and red blood cells were propelled along the waveguides and stably trapped in the gap area [22,23].…”

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confidence: 99%