Skip to main content

Lund University Publications

LUND UNIVERSITY LIBRARIES

Open channel deterministic lateral displacement for particle and cell sorting

Tran, Si Hoai Trung LU ; Ho, Bao D. LU ; Beech, Jason P. LU and Tegenfeldt, Jonas O. LU orcid (2017) In Lab on a Chip - Miniaturisation for Chemistry and Biology 17(21). p.3592-3600
Abstract

We present the use of capillary driven flow over patterned surfaces to achieve cheap and simple, but powerful separation of biologically relevant particle systems. The wide use of microfluidics is often hampered by the propensity for devices to clog due to the small channel sizes and the inability to access the interior of devices for cleaning. Often the devices can only be used for a limited duration and most frequently only once. In addition the cost and power requirements of flow control equipment limits the wider spread of the devices. We address these issues by presenting a simple particle- and cell-sorting scheme based on controlled fluid flow on a patterned surface. The open architecture makes it highly robust and easy to use. If... (More)

We present the use of capillary driven flow over patterned surfaces to achieve cheap and simple, but powerful separation of biologically relevant particle systems. The wide use of microfluidics is often hampered by the propensity for devices to clog due to the small channel sizes and the inability to access the interior of devices for cleaning. Often the devices can only be used for a limited duration and most frequently only once. In addition the cost and power requirements of flow control equipment limits the wider spread of the devices. We address these issues by presenting a simple particle- and cell-sorting scheme based on controlled fluid flow on a patterned surface. The open architecture makes it highly robust and easy to use. If clogging occurs it is straightforward to rinse the device and reuse it. Instead of external mechanical pumps, paper is used as a capillary pump. The different fractions are deposited in the paper and can subsequently be handled independently by simply cutting the paper for downstream processing and analyses. The sorting, based on deterministic lateral displacement, performs equivalently well in comparison with standard covered devices. We demonstrate successful separation of cancer cells and parasites from blood with good viability and with relevance for diagnostics and sample preparation. Sorting a mixture of soil and blood, we show the potential for forensic applications.

(Less)
Please use this url to cite or link to this publication:
author
; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Lab on a Chip - Miniaturisation for Chemistry and Biology
volume
17
issue
21
pages
9 pages
publisher
Royal Society of Chemistry
external identifiers
  • scopus:85032447553
  • wos:000413868700004
  • pmid:28948275
ISSN
1473-0197
DOI
10.1039/c7lc00707h
language
English
LU publication?
yes
id
b1f62558-6fc1-4dc3-bece-8d0ab00c81c9
date added to LUP
2017-11-08 12:10:52
date last changed
2024-03-31 20:14:18
@article{b1f62558-6fc1-4dc3-bece-8d0ab00c81c9,
  abstract     = {{<p>We present the use of capillary driven flow over patterned surfaces to achieve cheap and simple, but powerful separation of biologically relevant particle systems. The wide use of microfluidics is often hampered by the propensity for devices to clog due to the small channel sizes and the inability to access the interior of devices for cleaning. Often the devices can only be used for a limited duration and most frequently only once. In addition the cost and power requirements of flow control equipment limits the wider spread of the devices. We address these issues by presenting a simple particle- and cell-sorting scheme based on controlled fluid flow on a patterned surface. The open architecture makes it highly robust and easy to use. If clogging occurs it is straightforward to rinse the device and reuse it. Instead of external mechanical pumps, paper is used as a capillary pump. The different fractions are deposited in the paper and can subsequently be handled independently by simply cutting the paper for downstream processing and analyses. The sorting, based on deterministic lateral displacement, performs equivalently well in comparison with standard covered devices. We demonstrate successful separation of cancer cells and parasites from blood with good viability and with relevance for diagnostics and sample preparation. Sorting a mixture of soil and blood, we show the potential for forensic applications.</p>}},
  author       = {{Tran, Si Hoai Trung and Ho, Bao D. and Beech, Jason P. and Tegenfeldt, Jonas O.}},
  issn         = {{1473-0197}},
  language     = {{eng}},
  number       = {{21}},
  pages        = {{3592--3600}},
  publisher    = {{Royal Society of Chemistry}},
  series       = {{Lab on a Chip - Miniaturisation for Chemistry and Biology}},
  title        = {{Open channel deterministic lateral displacement for particle and cell sorting}},
  url          = {{http://dx.doi.org/10.1039/c7lc00707h}},
  doi          = {{10.1039/c7lc00707h}},
  volume       = {{17}},
  year         = {{2017}},
}