A surface tension magnetophoretic device for rare cell isolation and characterization

Emma E. van der Toom; James E. Verdone; Changhan Jun; Doru Petrisor; Sunghwan Lim; Jean J.M.C.H. de la Rosette; Theo M. de Reijke; Michael Gorin; Kenneth J. Pienta; Dan Stoianovici

doi:10.1007/s12032-016-0877-y

A surface tension magnetophoretic device for rare cell isolation and characterization

Emma E. van der Toom, James E. Verdone, Changhan Jun, Doru Petrisor, Sunghwan Lim, Jean J.M.C.H. de la Rosette, Theo M. de Reijke, Michael Gorin, Kenneth J. Pienta, Dan Stoianovici

School of Medicine

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

2 Scopus citations

Abstract

The cancer community continues to search for an efficient and cost-effective technique to isolate and characterize circulating cells (CTCs) as a ‘real-time liquid biopsy’. Existing methods to isolate and analyze CTCs require various transfer, wash, and staining steps that can be time consuming, expensive, and led to the loss of rare cells. To overcome the limitations of existing CTC isolation strategies, we have developed an inexpensive ‘lab on a chip’ device for the enrichment, staining, and analysis of rare cell populations. This device utilizes immunomagnetic positive selection of antibody-bound cells, isolation of cells through an immiscible interface, and filtration. The isolated cells can then be stained utilizing immunofluorescence or used for other downstream detection methods. We describe the construction and initial preclinical testing of the device. Initial tests suggest that the device may be well suited for the isolation of CTCs and could allow the monitoring of cancer progression and the response to therapy over time.

Original language	English (US)
Article number	22
Journal	Medical Oncology
Volume	34
Issue number	2
DOIs	https://doi.org/10.1007/s12032-016-0877-y
State	Published - Feb 1 2017

Keywords

Circulating tumor cells
Magnetophoresis
Micro-fluidic device
Prostate cancer
Rare cells

ASJC Scopus subject areas

Hematology
Oncology
Cancer Research

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title = "A surface tension magnetophoretic device for rare cell isolation and characterization",

abstract = "The cancer community continues to search for an efficient and cost-effective technique to isolate and characterize circulating cells (CTCs) as a {\textquoteleft}real-time liquid biopsy{\textquoteright}. Existing methods to isolate and analyze CTCs require various transfer, wash, and staining steps that can be time consuming, expensive, and led to the loss of rare cells. To overcome the limitations of existing CTC isolation strategies, we have developed an inexpensive {\textquoteleft}lab on a chip{\textquoteright} device for the enrichment, staining, and analysis of rare cell populations. This device utilizes immunomagnetic positive selection of antibody-bound cells, isolation of cells through an immiscible interface, and filtration. The isolated cells can then be stained utilizing immunofluorescence or used for other downstream detection methods. We describe the construction and initial preclinical testing of the device. Initial tests suggest that the device may be well suited for the isolation of CTCs and could allow the monitoring of cancer progression and the response to therapy over time.",

keywords = "Circulating tumor cells, Magnetophoresis, Micro-fluidic device, Prostate cancer, Rare cells",

author = "{van der Toom}, {Emma E.} and Verdone, {James E.} and Changhan Jun and Doru Petrisor and Sunghwan Lim and {de la Rosette}, {Jean J.M.C.H.} and {de Reijke}, {Theo M.} and Michael Gorin and Pienta, {Kenneth J.} and Dan Stoianovici",

note = "Publisher Copyright: {\textcopyright} 2017, Springer Science+Business Media New York.",

year = "2017",

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doi = "10.1007/s12032-016-0877-y",

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AU - van der Toom, Emma E.

AU - Verdone, James E.

AU - Jun, Changhan

AU - Petrisor, Doru

AU - Lim, Sunghwan

AU - de la Rosette, Jean J.M.C.H.

AU - de Reijke, Theo M.

AU - Gorin, Michael

AU - Pienta, Kenneth J.

AU - Stoianovici, Dan

PY - 2017/2/1

Y1 - 2017/2/1

N2 - The cancer community continues to search for an efficient and cost-effective technique to isolate and characterize circulating cells (CTCs) as a ‘real-time liquid biopsy’. Existing methods to isolate and analyze CTCs require various transfer, wash, and staining steps that can be time consuming, expensive, and led to the loss of rare cells. To overcome the limitations of existing CTC isolation strategies, we have developed an inexpensive ‘lab on a chip’ device for the enrichment, staining, and analysis of rare cell populations. This device utilizes immunomagnetic positive selection of antibody-bound cells, isolation of cells through an immiscible interface, and filtration. The isolated cells can then be stained utilizing immunofluorescence or used for other downstream detection methods. We describe the construction and initial preclinical testing of the device. Initial tests suggest that the device may be well suited for the isolation of CTCs and could allow the monitoring of cancer progression and the response to therapy over time.

AB - The cancer community continues to search for an efficient and cost-effective technique to isolate and characterize circulating cells (CTCs) as a ‘real-time liquid biopsy’. Existing methods to isolate and analyze CTCs require various transfer, wash, and staining steps that can be time consuming, expensive, and led to the loss of rare cells. To overcome the limitations of existing CTC isolation strategies, we have developed an inexpensive ‘lab on a chip’ device for the enrichment, staining, and analysis of rare cell populations. This device utilizes immunomagnetic positive selection of antibody-bound cells, isolation of cells through an immiscible interface, and filtration. The isolated cells can then be stained utilizing immunofluorescence or used for other downstream detection methods. We describe the construction and initial preclinical testing of the device. Initial tests suggest that the device may be well suited for the isolation of CTCs and could allow the monitoring of cancer progression and the response to therapy over time.

KW - Circulating tumor cells

KW - Magnetophoresis

KW - Micro-fluidic device

KW - Prostate cancer

KW - Rare cells

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A surface tension magnetophoretic device for rare cell isolation and characterization

Abstract

Keywords

ASJC Scopus subject areas

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