Isolation and retrieval of circulating tumor cells using centrifugal forces

H.W. Hou; M.E. Warkiani; B.L. Khoo; Z.R. Li; R.A. Soo; D.S.-W. Tan; W.-T. Lim; J. Han; A.A.S. Bhagat; C.T. Lim

doi:10.1038/srep01259

Isolation and retrieval of circulating tumor cells using centrifugal forces

H.W. Hou
, M.E. Warkiani
, B.L. Khoo
, Z.R. Li
, R.A. Soo
, D.S.-W. Tan
, W.-T. Lim
, J. Han
, A.A.S. Bhagat
, C.T. Lim

Research output: Contribution to journal › Article › peer-review

669 Citations (Scopus)

Abstract

Presence and frequency of rare circulating tumor cells (CTCs) in bloodstreams of cancer patients are pivotal to early cancer detection and treatment monitoring. Here, we use a spiral microchannel with inherent centrifugal forces for continuous, size-based separation of CTCs from blood (Dean Flow Fractionation (DFF)) which facilitates easy coupling with conventional downstream biological assays. Device performance was optimized using cancer cell lines (> 85% recovery), followed by clinical validation with positive CTCs enumeration in all samples from patients with metastatic lung cancer (n = 20; 5-88 CTCs per mL). The presence of CD133 + cells, a phenotypic marker characteristic of stem-like behavior in lung cancer cells was also identified in the isolated subpopulation of CTCs. The spiral biochip identifies and addresses key challenges of the next generation CTCs isolation assay including antibody independent isolation, high sensitivity and throughput (3 mL/hr); and single-step retrieval of viable CTCs.

Original language	English
Pages (from-to)	8pp
Journal	Scientific Reports
Volume	3
DOIs	https://doi.org/10.1038/srep01259
Publication status	Published - 2013

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title = "Isolation and retrieval of circulating tumor cells using centrifugal forces",

abstract = "Presence and frequency of rare circulating tumor cells (CTCs) in bloodstreams of cancer patients are pivotal to early cancer detection and treatment monitoring. Here, we use a spiral microchannel with inherent centrifugal forces for continuous, size-based separation of CTCs from blood (Dean Flow Fractionation (DFF)) which facilitates easy coupling with conventional downstream biological assays. Device performance was optimized using cancer cell lines (> 85\% recovery), followed by clinical validation with positive CTCs enumeration in all samples from patients with metastatic lung cancer (n = 20; 5-88 CTCs per mL). The presence of CD133 + cells, a phenotypic marker characteristic of stem-like behavior in lung cancer cells was also identified in the isolated subpopulation of CTCs. The spiral biochip identifies and addresses key challenges of the next generation CTCs isolation assay including antibody independent isolation, high sensitivity and throughput (3 mL/hr); and single-step retrieval of viable CTCs.",

author = "H.W. Hou and M.E. Warkiani and B.L. Khoo and Z.R. Li and R.A. Soo and D.S.-W. Tan and W.-T. Lim and J. Han and A.A.S. Bhagat and C.T. Lim",

year = "2013",

doi = "10.1038/srep01259",

language = "English",

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pages = "8pp",

journal = "Scientific Reports",

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TY - JOUR

T1 - Isolation and retrieval of circulating tumor cells using centrifugal forces

AU - Hou, H.W.

AU - Warkiani, M.E.

AU - Khoo, B.L.

AU - Li, Z.R.

AU - Soo, R.A.

AU - Tan, D.S.-W.

AU - Lim, W.-T.

AU - Han, J.

AU - Bhagat, A.A.S.

AU - Lim, C.T.

PY - 2013

Y1 - 2013

N2 - Presence and frequency of rare circulating tumor cells (CTCs) in bloodstreams of cancer patients are pivotal to early cancer detection and treatment monitoring. Here, we use a spiral microchannel with inherent centrifugal forces for continuous, size-based separation of CTCs from blood (Dean Flow Fractionation (DFF)) which facilitates easy coupling with conventional downstream biological assays. Device performance was optimized using cancer cell lines (> 85% recovery), followed by clinical validation with positive CTCs enumeration in all samples from patients with metastatic lung cancer (n = 20; 5-88 CTCs per mL). The presence of CD133 + cells, a phenotypic marker characteristic of stem-like behavior in lung cancer cells was also identified in the isolated subpopulation of CTCs. The spiral biochip identifies and addresses key challenges of the next generation CTCs isolation assay including antibody independent isolation, high sensitivity and throughput (3 mL/hr); and single-step retrieval of viable CTCs.

AB - Presence and frequency of rare circulating tumor cells (CTCs) in bloodstreams of cancer patients are pivotal to early cancer detection and treatment monitoring. Here, we use a spiral microchannel with inherent centrifugal forces for continuous, size-based separation of CTCs from blood (Dean Flow Fractionation (DFF)) which facilitates easy coupling with conventional downstream biological assays. Device performance was optimized using cancer cell lines (> 85% recovery), followed by clinical validation with positive CTCs enumeration in all samples from patients with metastatic lung cancer (n = 20; 5-88 CTCs per mL). The presence of CD133 + cells, a phenotypic marker characteristic of stem-like behavior in lung cancer cells was also identified in the isolated subpopulation of CTCs. The spiral biochip identifies and addresses key challenges of the next generation CTCs isolation assay including antibody independent isolation, high sensitivity and throughput (3 mL/hr); and single-step retrieval of viable CTCs.

U2 - 10.1038/srep01259

DO - 10.1038/srep01259

M3 - Article

SN - 2045-2322

VL - 3

SP - 8pp

JO - Scientific Reports

JF - Scientific Reports

ER -

Isolation and retrieval of circulating tumor cells using centrifugal forces

Abstract

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