2022
DOI: 10.1007/s10544-022-00609-z
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Isolation of exosome from the culture medium of Nasopharyngeal cancer (NPC) C666-1 cells using inertial based Microfluidic channel

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Cited by 7 publications
(5 citation statements)
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“…These microfluidic devices enable efficient extraction and detection of specific exosomes, making them suitable for use in clinical applications [ 179 ]. In relation to NPC, a successful separation of exosomes from the culture medium of C666-1 cell line using a microfluidic-based approach has been achieved by Teoh et al [ 180 ]. However, it is important to note that the scalability of capture-based techniques is limited by cost constraints.…”
Section: Limitations Of Exosomes In Clinical Use and Future Directionsmentioning
confidence: 99%
“…These microfluidic devices enable efficient extraction and detection of specific exosomes, making them suitable for use in clinical applications [ 179 ]. In relation to NPC, a successful separation of exosomes from the culture medium of C666-1 cell line using a microfluidic-based approach has been achieved by Teoh et al [ 180 ]. However, it is important to note that the scalability of capture-based techniques is limited by cost constraints.…”
Section: Limitations Of Exosomes In Clinical Use and Future Directionsmentioning
confidence: 99%
“…Based on its good biocompatibility, air permeability, and transparency, PDMS is the main material for microfluidic chips. [11,13,106,124,160,179] However, there are certain limitations of PDMS as well. The hydrophobicity of the PDMS surface can easily cause non-specific adsorption of drugs and biomolecules, which affects the accuracy of the experiment.…”
Section: Biological Productionmentioning
confidence: 99%
“…The emergence of microfluidic technology has provided a broad stage for the investigation of cellular processes through real-time in situ monitoring of biomarkers during cell culture. Microfluidic platforms, also known as lab-on-a-chip, [8] provide an ideal tool for the real-time in situ monitoring of biomarkers at the cellular level, [9] and are thus widely used in cell culture, [10] cell differentiation, [11] cell migration, [12] and cell-tocell communication. [13] The first microfluidic platform dates back to 1975, when James et al reported a gas chromatographic air analyzer fabricated on a silicon wafer.…”
Section: Introductionmentioning
confidence: 99%
“…In fact, F i acts to drive the particles orthogonally to the flow direction inside the microchannel in a manner that strongly depends on particle dimension D (F i ∝ D 4 ). Therefore, by properly tuning the channel size and flow rates, it is necessary to focus the particles according to their size [50][51][52][53][54][55]. A particular configuration consists of spiral channels that strongly favor the lateral migration of particles with different velocities depending on size [56], as used by Tay et al for rapid isolation from a whole blood sample at 80 µL/min, despite reaching a poor recovery efficiency (20-60%) [57].…”
Section: Passive Approachesmentioning
confidence: 99%
“…Filtration [38][39][40][41][42][43][44][45]150,151] Micro-/nano-filtration process by porous membranes inside chip Deterministic lateral displacement [46,[60][61][62] Particle distribution in size by lateral forces conveyed by ordered array of posts Inertial force [50][51][52][53][54][55]77] Viscoelastic force [67][68][69][70][71][72] Imbalance of inertial forces or of shear forces in non-Newtonian viscoelastic fluid…”
Section: Physical: Passivementioning
confidence: 99%