A hydrodynamic microchip for formation of continuous cell chains
A hydrodynamic microchip for formation of continuous cell chains
Here, we demonstrate the unique features of a hydrodynamic based microchip for creating continuous chains of model yeast cells. The system consists of a disk shaped microfluidic structure, containing narrow orifices that connect the main channel to an array of spoke channels. Negative pressure provided by a syringe pump draws fluid from the main channel through the narrow orifices. After cleaning process, a thin layer of water is left between the glass substrate and the polydimethylsiloxane microchip, enabling leakage beneath the channel walls. A mechanical clamp is used to adjust the operation of the microchip. Relaxing the clamp allows leakage of liquid beneath the walls in a controllable fashion, leading to formation of a long cell chain evenly distributed along the channel wall. The unique features of the microchip are demonstrated by creating long chains of yeast cells and model 15μm polystyrene particles along the side wall and analysing the hydrogen peroxide induced death of patterned cells.
Khoshmanesh, Khashayar
72608a1e-0e41-4360-8065-98d872493aed
Zhang, Wei
580a3151-098d-4fac-b791-931fa89fa327
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Nasabi, Mahyar
5805bfab-fc16-4873-bc03-d49ffbd8dd19
Soffe, Rebecca
c1670df9-4ac4-4abc-8c48-3f6048a4e9fb
Tovar-Lopez, Francisco J.
65b87359-8106-4328-9cfe-bd35ac3ca69d
Rajadas, Jayakumar
3ad413cd-3236-4e35-8707-125bcb9bc9c2
Mitchell, Arnan
33a18604-17e3-421e-b895-0f420d332cd4
19 May 2014
Khoshmanesh, Khashayar
72608a1e-0e41-4360-8065-98d872493aed
Zhang, Wei
580a3151-098d-4fac-b791-931fa89fa327
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Nasabi, Mahyar
5805bfab-fc16-4873-bc03-d49ffbd8dd19
Soffe, Rebecca
c1670df9-4ac4-4abc-8c48-3f6048a4e9fb
Tovar-Lopez, Francisco J.
65b87359-8106-4328-9cfe-bd35ac3ca69d
Rajadas, Jayakumar
3ad413cd-3236-4e35-8707-125bcb9bc9c2
Mitchell, Arnan
33a18604-17e3-421e-b895-0f420d332cd4
Khoshmanesh, Khashayar, Zhang, Wei, Tang, Shi Yang, Nasabi, Mahyar, Soffe, Rebecca, Tovar-Lopez, Francisco J., Rajadas, Jayakumar and Mitchell, Arnan
(2014)
A hydrodynamic microchip for formation of continuous cell chains.
Applied Physics Letters, 104 (20), [203701].
(doi:10.1063/1.4879457).
Abstract
Here, we demonstrate the unique features of a hydrodynamic based microchip for creating continuous chains of model yeast cells. The system consists of a disk shaped microfluidic structure, containing narrow orifices that connect the main channel to an array of spoke channels. Negative pressure provided by a syringe pump draws fluid from the main channel through the narrow orifices. After cleaning process, a thin layer of water is left between the glass substrate and the polydimethylsiloxane microchip, enabling leakage beneath the channel walls. A mechanical clamp is used to adjust the operation of the microchip. Relaxing the clamp allows leakage of liquid beneath the walls in a controllable fashion, leading to formation of a long cell chain evenly distributed along the channel wall. The unique features of the microchip are demonstrated by creating long chains of yeast cells and model 15μm polystyrene particles along the side wall and analysing the hydrogen peroxide induced death of patterned cells.
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Published date: 19 May 2014
Identifiers
Local EPrints ID: 481659
URI: http://eprints.soton.ac.uk/id/eprint/481659
ISSN: 0003-6951
PURE UUID: 3e3be3ea-87e3-451d-a700-fee79ae3fc54
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Date deposited: 05 Sep 2023 16:56
Last modified: 18 Mar 2024 04:13
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Contributors
Author:
Khashayar Khoshmanesh
Author:
Wei Zhang
Author:
Shi Yang Tang
Author:
Mahyar Nasabi
Author:
Rebecca Soffe
Author:
Francisco J. Tovar-Lopez
Author:
Jayakumar Rajadas
Author:
Arnan Mitchell
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