High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces

A microfluidic chip, which can separate and enrich leukocytes from whole blood, is proposed. The chip has 10 switchback curve channels, which are connected by straight channels. The straight channels are designed to permit the inertial migration effect and to concentrate the blood cells, while the c...

Descripción completa

Detalles Bibliográficos
Autores principales: Lombodorj, Batzorig, Tseng, Horas Cendana, Chang, Hwan-You, Lu, Yen-Wen, Tumurpurev, Namnan, Lee, Chun-Wei, Ganbat, Batdemberel, Wu, Ren-Guei, Tseng, Fan-Gang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7143169/
https://www.ncbi.nlm.nih.gov/pubmed/32155862
http://dx.doi.org/10.3390/mi11030275
_version_ 1783519550962139136
author Lombodorj, Batzorig
Tseng, Horas Cendana
Chang, Hwan-You
Lu, Yen-Wen
Tumurpurev, Namnan
Lee, Chun-Wei
Ganbat, Batdemberel
Wu, Ren-Guei
Tseng, Fan-Gang
author_facet Lombodorj, Batzorig
Tseng, Horas Cendana
Chang, Hwan-You
Lu, Yen-Wen
Tumurpurev, Namnan
Lee, Chun-Wei
Ganbat, Batdemberel
Wu, Ren-Guei
Tseng, Fan-Gang
author_sort Lombodorj, Batzorig
collection PubMed
description A microfluidic chip, which can separate and enrich leukocytes from whole blood, is proposed. The chip has 10 switchback curve channels, which are connected by straight channels. The straight channels are designed to permit the inertial migration effect and to concentrate the blood cells, while the curve channels allow the Dean flow to further classify the blood cells based on the cell sizes. Hydrodynamic suction is also utilized to remove smaller blood cells (e.g., red blood cell (RBC)) in the curve channels for higher separation purity. By employing the inertial migration, Dean flow force, and hydrodynamic suction in a continuous flow system, our chip successfully separates large white blood cells (WBCs) from the whole blood with the processing rates as high as 1 × 10(8) cells/sec at a high recovery rate at 93.2% and very few RBCs (~0.1%).
format Online
Article
Text
id pubmed-7143169
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-71431692020-04-14 High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces Lombodorj, Batzorig Tseng, Horas Cendana Chang, Hwan-You Lu, Yen-Wen Tumurpurev, Namnan Lee, Chun-Wei Ganbat, Batdemberel Wu, Ren-Guei Tseng, Fan-Gang Micromachines (Basel) Article A microfluidic chip, which can separate and enrich leukocytes from whole blood, is proposed. The chip has 10 switchback curve channels, which are connected by straight channels. The straight channels are designed to permit the inertial migration effect and to concentrate the blood cells, while the curve channels allow the Dean flow to further classify the blood cells based on the cell sizes. Hydrodynamic suction is also utilized to remove smaller blood cells (e.g., red blood cell (RBC)) in the curve channels for higher separation purity. By employing the inertial migration, Dean flow force, and hydrodynamic suction in a continuous flow system, our chip successfully separates large white blood cells (WBCs) from the whole blood with the processing rates as high as 1 × 10(8) cells/sec at a high recovery rate at 93.2% and very few RBCs (~0.1%). MDPI 2020-03-06 /pmc/articles/PMC7143169/ /pubmed/32155862 http://dx.doi.org/10.3390/mi11030275 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Lombodorj, Batzorig
Tseng, Horas Cendana
Chang, Hwan-You
Lu, Yen-Wen
Tumurpurev, Namnan
Lee, Chun-Wei
Ganbat, Batdemberel
Wu, Ren-Guei
Tseng, Fan-Gang
High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title_full High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title_fullStr High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title_full_unstemmed High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title_short High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces
title_sort high-throughput white blood cell (leukocyte) enrichment from whole blood using hydrodynamic and inertial forces
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7143169/
https://www.ncbi.nlm.nih.gov/pubmed/32155862
http://dx.doi.org/10.3390/mi11030275
work_keys_str_mv AT lombodorjbatzorig highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT tsenghorascendana highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT changhwanyou highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT luyenwen highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT tumurpurevnamnan highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT leechunwei highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT ganbatbatdemberel highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT wurenguei highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces
AT tsengfangang highthroughputwhitebloodcellleukocyteenrichmentfromwholebloodusinghydrodynamicandinertialforces

Ejemplares similares