Microfluidic platforms for the investigation of intercellular signalling mechanisms
Microfluidic platforms for the investigation of intercellular signalling mechanisms
(Chemical Equation Presented) Intercellular signalling has been identified as a highly complex process, responsible for orchestrating many physiological functions. While conventional methods of investigation have been useful, their limitations are impeding further development. Microfluidics offers an opportunity to overcome some of these limitations. Most notably, microfluidic systems can emulate the in-vivo environments. Further, they enable exceptionally precise control of the microenvironment, allowing complex mechanisms to be selectively isolated and studied in detail. There has thus been a growing adoption of microfluidic platforms for investigation of cell signalling mechanisms. This review provides an overview of the different signalling mechanisms and discusses the methods used to study them, with a focus on the microfluidic devices developed for this purpose.
4810-4826
Nahavandi, Sofia
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Tang, Shi Yang
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Baratchi, Sara
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Soffe, Rebecca
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Nahavandi, Saeid
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Kalantar-Zadeh, Kourosh
aded6a64-8612-40b7-aae9-233fbae916a6
Mitchell, Arnan
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Khoshmanesh, Khashayar
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10 December 2014
Nahavandi, Sofia
93efa445-8eac-4999-9204-969a014bb717
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Baratchi, Sara
aec99b88-f6af-499d-b71d-2cfbc5fab461
Soffe, Rebecca
c1670df9-4ac4-4abc-8c48-3f6048a4e9fb
Nahavandi, Saeid
793aa868-d3bf-4c01-925b-20621c9e1da5
Kalantar-Zadeh, Kourosh
aded6a64-8612-40b7-aae9-233fbae916a6
Mitchell, Arnan
33a18604-17e3-421e-b895-0f420d332cd4
Khoshmanesh, Khashayar
72608a1e-0e41-4360-8065-98d872493aed
Nahavandi, Sofia, Tang, Shi Yang, Baratchi, Sara, Soffe, Rebecca, Nahavandi, Saeid, Kalantar-Zadeh, Kourosh, Mitchell, Arnan and Khoshmanesh, Khashayar
(2014)
Microfluidic platforms for the investigation of intercellular signalling mechanisms.
Small, 10 (23), .
(doi:10.1002/smll.201401444).
Abstract
(Chemical Equation Presented) Intercellular signalling has been identified as a highly complex process, responsible for orchestrating many physiological functions. While conventional methods of investigation have been useful, their limitations are impeding further development. Microfluidics offers an opportunity to overcome some of these limitations. Most notably, microfluidic systems can emulate the in-vivo environments. Further, they enable exceptionally precise control of the microenvironment, allowing complex mechanisms to be selectively isolated and studied in detail. There has thus been a growing adoption of microfluidic platforms for investigation of cell signalling mechanisms. This review provides an overview of the different signalling mechanisms and discusses the methods used to study them, with a focus on the microfluidic devices developed for this purpose.
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Published date: 10 December 2014
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© 2014 Wiley-VCH Verlag GmbH & Co. KGaA.
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Local EPrints ID: 481667
URI: http://eprints.soton.ac.uk/id/eprint/481667
ISSN: 1613-6810
PURE UUID: 5e364ba4-fe44-4d44-9e8e-78ecdfcaa5af
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Date deposited: 05 Sep 2023 16:56
Last modified: 06 Jun 2024 02:18
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Author:
Sofia Nahavandi
Author:
Shi Yang Tang
Author:
Sara Baratchi
Author:
Rebecca Soffe
Author:
Saeid Nahavandi
Author:
Kourosh Kalantar-Zadeh
Author:
Arnan Mitchell
Author:
Khashayar Khoshmanesh
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