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The Exosome Total Isolation Chip.

Fei LiuOphir VermeshVigneshwaran ManiTianjia J GeSteven J MadsenAndrew SabourEn-Chi HsuGayatri GowrishankarMasamitsu KanadaJesse V JokerstRaymond G SierraEdwin ChangKenneth LauKaushik SridharAbel BermudezSharon J PitteriTanya StoyanovaRobert SinclairViswam S NairSanjiv S GambhirUtkan Demirci
Published in: ACS nano (2017)
Circulating tumor-derived extracellular vesicles (EVs) have emerged as a promising source for identifying cancer biomarkers for early cancer detection. However, the clinical utility of EVs has thus far been limited by the fact that most EV isolation methods are tedious, nonstandardized, and require bulky instrumentation such as ultracentrifugation (UC). Here, we report a size-based EV isolation tool called ExoTIC (exosome total isolation chip), which is simple, easy-to-use, modular, and facilitates high-yield and high-purity EV isolation from biofluids. ExoTIC achieves an EV yield ∼4-1000-fold higher than that with UC, and EV-derived protein and microRNA levels are well-correlated between the two methods. Moreover, we demonstrate that ExoTIC is a modular platform that can sort a heterogeneous population of cancer cell line EVs based on size. Further, we utilize ExoTIC to isolate EVs from cancer patient clinical samples, including plasma, urine, and lavage, demonstrating the device's broad applicability to cancers and other diseases. Finally, the ability of ExoTIC to efficiently isolate EVs from small sample volumes opens up avenues for preclinical studies in small animal tumor models and for point-of-care EV-based clinical testing from fingerprick quantities (10-100 μL) of blood.
Keyphrases
  • papillary thyroid
  • squamous cell
  • circulating tumor cells
  • high throughput
  • circulating tumor
  • squamous cell carcinoma
  • childhood cancer
  • mesenchymal stem cells
  • single cell