Portable tumor biosensing of serum by plasmonic biochips in combination with nanoimprint and microfluidics
Portable tumor biosensing of serum by plasmonic biochips in combination with nanoimprint and microfluidics
Plasmonic sensing has a great potential in the portable detection of human tumor markers, among which the carcinoembryonic antigen (CEA) is one of the most widely used in clinical medicine. Traditional plasmonic and non-plasmonic methods for CEA biosensing are still not suitable for the fast developing era of Internet of things. In this study, we build up a cost-effective plasmonic immunochip platform for rapid portable detection of CEA by combining soft nanoimprint lithography, microfluidics, antibody functionalization, and mobile fiber spectrometry. The plasmonic gold nanocave array enables stable surface functionality, high sensitivity, and simple reflective measuring configuration in the visible range. The rapid quantitative CEA sensing is implemented by a label-free scheme, and the detection capability for the concentration of less than 5 ng/ml is achieved in clinical experiments, which is much lower than the CEA cancer diagnosis threshold of 20 ng/ml and absolutely sufficient for medical applications. Clinical tests of the chip on detecting human serums demonstrate good agreement with conventional medical examinations and great advantages on simultaneous multichannel detections for high-throughput and multi-marker biosensing. Our platform provides promising opportunities on low-cost and compact medical devices and systems with rapid and sensitive tumor detection for point-of-care diagnosis and mobile healthcare.
biosensing, immunochip, microfluidics, nanoimprint lithography, plasmonics
1-10
Zhou, Jianyang
367f289d-5481-465a-9888-261ca1f6a6b7
Tao, Feng
3d9fc416-da70-4ee2-87c4-6ba0a1d26461
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Lin, Shaowei
7dce5149-4724-4b08-b832-dea900be1ea8
Wang, Zhengying
d2aead5f-1fb9-40c6-b5d0-5d5ac31aaa42
Wang, Xiang
2e9d4b83-9f50-45c4-af21-bc4473d37ddf
Ou, Jun-Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Li, Yuan
25937282-1d57-4e57-a285-2e71ebd30379
Liu, Qing Huo
4e8331b2-f240-4433-b1d3-d0e36f3b2aad
Zhou, Jianyang
367f289d-5481-465a-9888-261ca1f6a6b7
Tao, Feng
3d9fc416-da70-4ee2-87c4-6ba0a1d26461
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Lin, Shaowei
7dce5149-4724-4b08-b832-dea900be1ea8
Wang, Zhengying
d2aead5f-1fb9-40c6-b5d0-5d5ac31aaa42
Wang, Xiang
2e9d4b83-9f50-45c4-af21-bc4473d37ddf
Ou, Jun-Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Li, Yuan
25937282-1d57-4e57-a285-2e71ebd30379
Liu, Qing Huo
4e8331b2-f240-4433-b1d3-d0e36f3b2aad
Zhou, Jianyang, Tao, Feng, Zhu, Jinfeng, Lin, Shaowei, Wang, Zhengying, Wang, Xiang, Ou, Jun-Yu, Li, Yuan and Liu, Qing Huo
(2019)
Portable tumor biosensing of serum by plasmonic biochips in combination with nanoimprint and microfluidics.
Nanophotonics, 8 (2), .
(doi:10.1515/nanoph-2018-0173).
Abstract
Plasmonic sensing has a great potential in the portable detection of human tumor markers, among which the carcinoembryonic antigen (CEA) is one of the most widely used in clinical medicine. Traditional plasmonic and non-plasmonic methods for CEA biosensing are still not suitable for the fast developing era of Internet of things. In this study, we build up a cost-effective plasmonic immunochip platform for rapid portable detection of CEA by combining soft nanoimprint lithography, microfluidics, antibody functionalization, and mobile fiber spectrometry. The plasmonic gold nanocave array enables stable surface functionality, high sensitivity, and simple reflective measuring configuration in the visible range. The rapid quantitative CEA sensing is implemented by a label-free scheme, and the detection capability for the concentration of less than 5 ng/ml is achieved in clinical experiments, which is much lower than the CEA cancer diagnosis threshold of 20 ng/ml and absolutely sufficient for medical applications. Clinical tests of the chip on detecting human serums demonstrate good agreement with conventional medical examinations and great advantages on simultaneous multichannel detections for high-throughput and multi-marker biosensing. Our platform provides promising opportunities on low-cost and compact medical devices and systems with rapid and sensitive tumor detection for point-of-care diagnosis and mobile healthcare.
Text
[Nanophotonics] Portable tumor biosensing of serum by plasmonic biochips in combination with nanoimprint and microfluidics (1)
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More information
Accepted/In Press date: 18 December 2018
e-pub ahead of print date: 22 January 2019
Keywords:
biosensing, immunochip, microfluidics, nanoimprint lithography, plasmonics
Identifiers
Local EPrints ID: 428020
URI: http://eprints.soton.ac.uk/id/eprint/428020
PURE UUID: b030c4ed-88e2-458a-ac31-f5d04bf62a2d
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Date deposited: 07 Feb 2019 17:30
Last modified: 16 Mar 2024 04:07
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Contributors
Author:
Jianyang Zhou
Author:
Feng Tao
Author:
Jinfeng Zhu
Author:
Shaowei Lin
Author:
Zhengying Wang
Author:
Xiang Wang
Author:
Jun-Yu Ou
Author:
Yuan Li
Author:
Qing Huo Liu
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