Literature DB >> 27479757

Nanoscale lateral displacement arrays for the separation of exosomes and colloids down to 20 nm.

Benjamin H Wunsch1, Joshua T Smith1, Stacey M Gifford1, Chao Wang1, Markus Brink1, Robert L Bruce1, Robert H Austin2, Gustavo Stolovitzky1,3, Yann Astier1.   

Abstract

Deterministic lateral displacement (DLD) pillar arrays are an efficient technology to sort, separate and enrich micrometre-scale particles, which include parasites, bacteria, blood cells and circulating tumour cells in blood. However, this technology has not been translated to the true nanoscale, where it could function on biocolloids, such as exosomes. Exosomes, a key target of 'liquid biopsies', are secreted by cells and contain nucleic acid and protein information about their originating tissue. One challenge in the study of exosome biology is to sort exosomes by size and surface markers. We use manufacturable silicon processes to produce nanoscale DLD (nano-DLD) arrays of uniform gap sizes ranging from 25 to 235 nm. We show that at low Péclet (Pe) numbers, at which diffusion and deterministic displacement compete, nano-DLD arrays separate particles between 20 to 110 nm based on size with sharp resolution. Further, we demonstrate the size-based displacement of exosomes, and so open up the potential for on-chip sorting and quantification of these important biocolloids.

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Year:  2016        PMID: 27479757     DOI: 10.1038/nnano.2016.134

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  24 in total

1.  Continuous particle separation through deterministic lateral displacement.

Authors:  Lotien Richard Huang; Edward C Cox; Robert H Austin; James C Sturm
Journal:  Science       Date:  2004-05-14       Impact factor: 47.728

2.  A generalized formula for inertial lift on a sphere in microchannels.

Authors:  Chao Liu; Chundong Xue; Jiashu Sun; Guoqing Hu
Journal:  Lab Chip       Date:  2016-03-07       Impact factor: 6.799

3.  Critical particle size for fractionation by deterministic lateral displacement.

Authors:  David W Inglis; John A Davis; Robert H Austin; James C Sturm
Journal:  Lab Chip       Date:  2006-03-17       Impact factor: 6.799

4.  Comparison of Faxén's correction for a microsphere translating or rotating near a surface.

Authors:  J Leach; H Mushfique; S Keen; R Di Leonardo; G Ruocco; J M Cooper; M J Padgett
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2009-02-02

5.  Quantitative nanostructural and single-molecule force spectroscopy biomolecular analysis of human-saliva-derived exosomes.

Authors:  Shivani Sharma; Boyd M Gillespie; Viswanathan Palanisamy; James K Gimzewski
Journal:  Langmuir       Date:  2011-11-09       Impact factor: 3.882

6.  Characterisation of exosomes derived from human cells by nanoparticle tracking analysis and scanning electron microscopy.

Authors:  Viktoriya Sokolova; Anna-Kristin Ludwig; Sandra Hornung; Olga Rotan; Peter A Horn; Matthias Epple; Bernd Giebel
Journal:  Colloids Surf B Biointerfaces       Date:  2011-05-12       Impact factor: 5.268

7.  Separation of parasites from human blood using deterministic lateral displacement.

Authors:  Stefan H Holm; Jason P Beech; Michael P Barrett; Jonas O Tegenfeldt
Journal:  Lab Chip       Date:  2011-02-18       Impact factor: 6.799

8.  Hydrodynamics of diamond-shaped gradient nanopillar arrays for effective DNA translocation into nanochannels.

Authors:  Chao Wang; Robert L Bruce; Elizabeth A Duch; Jyotica V Patel; Joshua T Smith; Yann Astier; Benjamin H Wunsch; Siddharth Meshram; Armand Galan; Chris Scerbo; Michael A Pereira; Deqiang Wang; Evan G Colgan; Qinghuang Lin; Gustavo Stolovitzky
Journal:  ACS Nano       Date:  2015-01-29       Impact factor: 15.881

9.  Prion-infected cells regulate the release of exosomes with distinct ultrastructural features.

Authors:  Bradley M Coleman; Eric Hanssen; Victoria A Lawson; Andrew F Hill
Journal:  FASEB J       Date:  2012-07-05       Impact factor: 5.191

10.  Analysis of exosome purification methods using a model liposome system and tunable-resistive pulse sensing.

Authors:  Rebecca E Lane; Darren Korbie; Will Anderson; Ramanathan Vaidyanathan; Matt Trau
Journal:  Sci Rep       Date:  2015-01-06       Impact factor: 4.379
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  98 in total

1.  Subnanometer structure and function from ion beams through complex fluidics to fluorescent particles.

Authors:  Kuo-Tang Liao; Joshua Schumacher; Henri J Lezec; Samuel M Stavis
Journal:  Lab Chip       Date:  2017-12-19       Impact factor: 6.799

2.  On the transport of particles/cells in high-throughput deterministic lateral displacement devices: Implications for circulating tumor cell separation.

Authors:  Arian Aghilinejad; Mohammad Aghaamoo; Xiaolin Chen
Journal:  Biomicrofluidics       Date:  2019-05-24       Impact factor: 2.800

3.  Broken flow symmetry explains the dynamics of small particles in deterministic lateral displacement arrays.

Authors:  Sung-Cheol Kim; Benjamin H Wunsch; Huan Hu; Joshua T Smith; Robert H Austin; Gustavo Stolovitzky
Journal:  Proc Natl Acad Sci U S A       Date:  2017-06-12       Impact factor: 11.205

4.  Bio-Inspired NanoVilli Chips for Enhanced Capture of Tumor-Derived Extracellular Vesicles: Toward Non-Invasive Detection of Gene Alterations in Non-Small Cell Lung Cancer.

Authors:  Jiantong Dong; Ryan Y Zhang; Na Sun; Matthew Smalley; Zipeng Wu; Anqi Zhou; Shih-Jie Chou; Yu Jen Jan; Peng Yang; Lirong Bao; Dongping Qi; Xinghong Tang; Patrick Tseng; Yue Hua; Dianwen Xu; Rueihung Kao; Meng Meng; Xirun Zheng; Ying Liu; Tatyana Vagner; Xiaoshu Chai; Dongjing Zhou; Mengyuan Li; Shih-Hwa Chiou; Guangjuan Zheng; Dolores Di Vizio; Vatche G Agopian; Edwin Posadas; Steven J Jonas; Shin-Pon Ju; Paul S Weiss; Meiping Zhao; Hsian-Rong Tseng; Yazhen Zhu
Journal:  ACS Appl Mater Interfaces       Date:  2019-04-02       Impact factor: 9.229

Review 5.  Recent Advances in the Label-Free Characterization of Exosomes for Cancer Liquid Biopsy: From Scattering and Spectroscopy to Nanoindentation and Nanodevices.

Authors:  Riccardo Di Santo; Sabrina Romanò; Alberto Mazzini; Svetlana Jovanović; Giuseppina Nocca; Gaetano Campi; Massimiliano Papi; Marco De Spirito; Flavio Di Giacinto; Gabriele Ciasca
Journal:  Nanomaterials (Basel)       Date:  2021-06-02       Impact factor: 5.076

6.  Isolation of exosomes from whole blood by integrating acoustics and microfluidics.

Authors:  Mengxi Wu; Yingshi Ouyang; Zeyu Wang; Rui Zhang; Po-Hsun Huang; Chuyi Chen; Hui Li; Peng Li; David Quinn; Ming Dao; Subra Suresh; Yoel Sadovsky; Tony Jun Huang
Journal:  Proc Natl Acad Sci U S A       Date:  2017-09-18       Impact factor: 11.205

7.  Combining DC and AC electric fields with deterministic lateral displacement for micro- and nano-particle separation.

Authors:  Victor Calero; Pablo Garcia-Sanchez; Antonio Ramos; Hywel Morgan
Journal:  Biomicrofluidics       Date:  2019-10-23       Impact factor: 2.800

Review 8.  Microfluidics for exosome isolation and analysis: enabling liquid biopsy for personalized medicine.

Authors:  Jose C Contreras-Naranjo; Hung-Jen Wu; Victor M Ugaz
Journal:  Lab Chip       Date:  2017-10-25       Impact factor: 6.799

9.  Coupling Nanostructured Microchips with Covalent Chemistry Enables Purification of Sarcoma-Derived Extracellular Vesicles for Downstream Functional Studies.

Authors:  Jiantong Dong; Ryan Y Zhang; Na Sun; Junhui Hu; Matthew D Smalley; Anqi Zhou; Hua Yue; Winston Rothermich; Mengxiang Chen; Jiayuan Chen; Jinglei Ye; Pai-Chi Teng; Dongping Qi; Jeffrey A Toretsky; James S Tomlinson; Mengyuan Li; Paul S Weiss; Steven J Jonas; Noah Federman; Lily Wu; Meiping Zhao; Hsian-Rong Tseng; Yazhen Zhu
Journal:  Adv Funct Mater       Date:  2020-09-13       Impact factor: 18.808

10.  A disposable acoustofluidic chip for nano/microparticle separation using unidirectional acoustic transducers.

Authors:  Shuaiguo Zhao; Mengxi Wu; Shujie Yang; Yuqi Wu; Yuyang Gu; Chuyi Chen; Jennifer Ye; Zhemiao Xie; Zhenhua Tian; Hunter Bachman; Po-Hsun Huang; Jianping Xia; Peiran Zhang; Heying Zhang; Tony Jun Huang
Journal:  Lab Chip       Date:  2020-03-20       Impact factor: 6.799
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