An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo

Ophir Vermesh; Amin Aalipour; T. Jessie Ge; Yamil Saenz; Yue Guo; Israt S. Alam; Seung min Park; Charlie N. Adelson; Yoshiaki Mitsutake; Jose Vilches-Moure; Elias Godoy; Michael H. Bachmann; Chin Chun Ooi; Jennifer K. Lyons; Kerstin Mueller; Hamed Arami; Alfredo Green; Edward I. Solomon; Shan X. Wang; Sanjiv S. Gambhir

doi:10.1038/s41551-018-0257-3

An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo

Ophir Vermesh, Amin Aalipour, T. Jessie Ge, Yamil Saenz, Yue Guo, Israt S. Alam, Seung min Park, Charlie N. Adelson, Yoshiaki Mitsutake, Jose Vilches-Moure, Elias Godoy, Michael H. Bachmann, Chin Chun Ooi, Jennifer K. Lyons, Kerstin Mueller, Hamed Arami, Alfredo Green, Edward I. Solomon, Shan X. Wang, Sanjiv S. Gambhir

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

102 Scopus citations

Abstract

The detection and analysis of rare blood biomarkers is necessary for early diagnosis of cancer and to facilitate the development of tailored therapies. However, current methods for the isolation of circulating tumour cells (CTCs) or nucleic acids present in a standard clinical sample of only 5–10 ml of blood provide inadequate yields for early cancer detection and comprehensive molecular profiling. Here, we report the development of a flexible magnetic wire that can retrieve rare biomarkers from the subject’s blood in vivo at a much higher yield. The wire is inserted and removed through a standard intravenous catheter and captures biomarkers that have been previously labelled with injected magnetic particles. In a proof-of-concept experiment in a live porcine model, we demonstrate the in vivo labelling and single-pass capture of viable model CTCs in less than 10 s. The wire achieves capture efficiencies that correspond to enrichments of 10–80 times the amount of CTCs in a 5-ml blood draw, and 500–5,000 times the enrichments achieved using the commercially available Gilupi CellCollector.

Original language	English (US)
Pages (from-to)	696-705
Number of pages	10
Journal	Nature Biomedical Engineering
Volume	2
Issue number	9
DOIs	https://doi.org/10.1038/s41551-018-0257-3
State	Published - Sep 1 2018
Externally published	Yes

ASJC Scopus subject areas

Biotechnology
Bioengineering
Medicine (miscellaneous)
Biomedical Engineering
Computer Science Applications

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10.1038/s41551-018-0257-3

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Vermesh, O., Aalipour, A., Ge, T. J., Saenz, Y., Guo, Y., Alam, I. S., Park, S. M., Adelson, C. N., Mitsutake, Y., Vilches-Moure, J., Godoy, E., Bachmann, M. H., Ooi, C. C., Lyons, J. K., Mueller, K., Arami, H., Green, A., Solomon, E. I., Wang, S. X., & Gambhir, S. S. (2018). An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo. Nature Biomedical Engineering, 2(9), 696-705. https://doi.org/10.1038/s41551-018-0257-3

Vermesh, O, Aalipour, A, Ge, TJ, Saenz, Y, Guo, Y, Alam, IS, Park, SM, Adelson, CN, Mitsutake, Y, Vilches-Moure, J, Godoy, E, Bachmann, MH, Ooi, CC, Lyons, JK, Mueller, K, Arami, H, Green, A, Solomon, EI, Wang, SX & Gambhir, SS 2018, 'An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo', Nature Biomedical Engineering, vol. 2, no. 9, pp. 696-705. https://doi.org/10.1038/s41551-018-0257-3

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title = "An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo",

abstract = "The detection and analysis of rare blood biomarkers is necessary for early diagnosis of cancer and to facilitate the development of tailored therapies. However, current methods for the isolation of circulating tumour cells (CTCs) or nucleic acids present in a standard clinical sample of only 5–10 ml of blood provide inadequate yields for early cancer detection and comprehensive molecular profiling. Here, we report the development of a flexible magnetic wire that can retrieve rare biomarkers from the subject{\textquoteright}s blood in vivo at a much higher yield. The wire is inserted and removed through a standard intravenous catheter and captures biomarkers that have been previously labelled with injected magnetic particles. In a proof-of-concept experiment in a live porcine model, we demonstrate the in vivo labelling and single-pass capture of viable model CTCs in less than 10 s. The wire achieves capture efficiencies that correspond to enrichments of 10–80 times the amount of CTCs in a 5-ml blood draw, and 500–5,000 times the enrichments achieved using the commercially available Gilupi CellCollector.",

author = "Ophir Vermesh and Amin Aalipour and Ge, {T. Jessie} and Yamil Saenz and Yue Guo and Alam, {Israt S.} and Park, {Seung min} and Adelson, {Charlie N.} and Yoshiaki Mitsutake and Jose Vilches-Moure and Elias Godoy and Bachmann, {Michael H.} and Ooi, {Chin Chun} and Lyons, {Jennifer K.} and Kerstin Mueller and Hamed Arami and Alfredo Green and Solomon, {Edward I.} and Wang, {Shan X.} and Gambhir, {Sanjiv S.}",

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doi = "10.1038/s41551-018-0257-3",

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AU - Vermesh, Ophir

AU - Aalipour, Amin

AU - Ge, T. Jessie

AU - Saenz, Yamil

AU - Guo, Yue

AU - Alam, Israt S.

AU - Park, Seung min

AU - Adelson, Charlie N.

AU - Mitsutake, Yoshiaki

AU - Vilches-Moure, Jose

AU - Godoy, Elias

AU - Bachmann, Michael H.

AU - Ooi, Chin Chun

AU - Lyons, Jennifer K.

AU - Mueller, Kerstin

AU - Arami, Hamed

AU - Green, Alfredo

AU - Solomon, Edward I.

AU - Wang, Shan X.

AU - Gambhir, Sanjiv S.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - The detection and analysis of rare blood biomarkers is necessary for early diagnosis of cancer and to facilitate the development of tailored therapies. However, current methods for the isolation of circulating tumour cells (CTCs) or nucleic acids present in a standard clinical sample of only 5–10 ml of blood provide inadequate yields for early cancer detection and comprehensive molecular profiling. Here, we report the development of a flexible magnetic wire that can retrieve rare biomarkers from the subject’s blood in vivo at a much higher yield. The wire is inserted and removed through a standard intravenous catheter and captures biomarkers that have been previously labelled with injected magnetic particles. In a proof-of-concept experiment in a live porcine model, we demonstrate the in vivo labelling and single-pass capture of viable model CTCs in less than 10 s. The wire achieves capture efficiencies that correspond to enrichments of 10–80 times the amount of CTCs in a 5-ml blood draw, and 500–5,000 times the enrichments achieved using the commercially available Gilupi CellCollector.

AB - The detection and analysis of rare blood biomarkers is necessary for early diagnosis of cancer and to facilitate the development of tailored therapies. However, current methods for the isolation of circulating tumour cells (CTCs) or nucleic acids present in a standard clinical sample of only 5–10 ml of blood provide inadequate yields for early cancer detection and comprehensive molecular profiling. Here, we report the development of a flexible magnetic wire that can retrieve rare biomarkers from the subject’s blood in vivo at a much higher yield. The wire is inserted and removed through a standard intravenous catheter and captures biomarkers that have been previously labelled with injected magnetic particles. In a proof-of-concept experiment in a live porcine model, we demonstrate the in vivo labelling and single-pass capture of viable model CTCs in less than 10 s. The wire achieves capture efficiencies that correspond to enrichments of 10–80 times the amount of CTCs in a 5-ml blood draw, and 500–5,000 times the enrichments achieved using the commercially available Gilupi CellCollector.

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An intravascular magnetic wire for the high-throughput retrieval of circulating tumour cells in vivo

Abstract

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