Detection of Myoglobin with an Open-Cavity-Based Label-Free Photonic Crystal Biosensor

The label-free detection of one of the cardiac biomarkers, myoglobin, using a photonic-crystal-based biosensor in a total-internal-reflection configuration (PC-TIR) is presented in this paper. The PC-TIR sensor possesses a unique open optical microcavity that allows for several key advantages in bio...

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Published in:Journal of medical engineering 2013-01, Vol.2013 (2013), p.1-7
Main Authors: Zhang, Bailin, Tamez-Vela, Juan Manuel, Solis, Steven, Bustamante, Gilbert, Peterson, Ralph, Ur Rahman, Shafiq, Morales, Andres, Tang, Liang, Ye, Jing Yong
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cited_by cdi_FETCH-LOGICAL-c2836-11e5c27c20c2eb56d76f7102db8f2a1c5fb71b79dc5d0961aca4f65dd23e97a53
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container_end_page 7
container_issue 2013
container_start_page 1
container_title Journal of medical engineering
container_volume 2013
creator Zhang, Bailin
Tamez-Vela, Juan Manuel
Solis, Steven
Bustamante, Gilbert
Peterson, Ralph
Ur Rahman, Shafiq
Morales, Andres
Tang, Liang
Ye, Jing Yong
description The label-free detection of one of the cardiac biomarkers, myoglobin, using a photonic-crystal-based biosensor in a total-internal-reflection configuration (PC-TIR) is presented in this paper. The PC-TIR sensor possesses a unique open optical microcavity that allows for several key advantages in biomolecular assays. In contrast to a conventional closed microcavity, the open configuration allows easy functionalization of the sensing surface for rapid biomolecular binding assays. Moreover, the properties of PC structures make it easy to be designed and engineered for operating at any optical wavelength. Through fine design of the photonic crystal structure, biochemical modification of the sensor surface, and integration with a microfluidic system, we have demonstrated that the detection sensitivity of the sensor for myoglobin has reached the clinically significant concentration range, enabling potential usage of this biosensor for diagnosis of acute myocardial infarction. The real-time response of the sensor to the myoglobin binding may potentially provide point-of-care monitoring of patients and treatment effects.
doi_str_mv 10.1155/2013/808056
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title Detection of Myoglobin with an Open-Cavity-Based Label-Free Photonic Crystal Biosensor
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