Journal
TALANTA
Volume 235, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.talanta.2021.122807
Keywords
Inertial microfluidics; Cell separation; Electricity-free; Hand-held; Low-resource setting
Categories
Funding
- National Natural Science Foundation of China [51875103, 81727801, 51775111]
- Natural Science Foundation of Jiangsu Province [BK20190064]
- Six TalentPeaks Project of Jiangsu Province [SWYY-005]
- Zhishan Youth Scholar Program of SEU
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A low-cost, portable hand-held inertial microfluidic cell sorter has been developed for high-efficiency sorting of differently sized cells in low-resource settings. Utilizing compression springs and mechanical syringe drivers to provide fluid driving force, the sorter enables high-efficiency separation of rare cells and different-sized particles.
Conventional batch-top cell sorters are often bulky and expensive, and miniaturized microfluidic sorters avail-able mostly require field generators and electricity-powered pumping systems. Therefore, the development of a low-cost, portable cell sorter that can be used in low resource settings is essential. In this study, we propose such an electricity-free hand-held inertial microfluidic sorter that can be used for the high-efficiency sorting of differently sized cells in a continuous and passive manner. The proposed hand-held sorter is composed of a wheel-shaped all-in-one syringe inertial microfluidic sorter (i-sorter) with flow stabilizer units and two spring-driven mechanical syringe drivers. The release of the compression spring in the mechanical syringe driver through a one-click operation provides the flow driving force. Passive flow stabilizer units in the i-sorter enable flow-rate-sensitive inertial cell separation for the unstable driving flow rate generated by the low-cost me-chanical syringe driver. We successfully achieved sorting of differently sized particles and high-efficiency sep-aration of rare tumor cells from the blood using the fabricated prototype. Our hand-held inertial microfluidic cell sorter has many advantages, including low device cost, simple electricity-free operation, compactness, and portability; additionally, samples do not need to be pre-labelled. Therefore, it has potential for use in low-resource settings.
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