Ultrahigh Sensitive Detection of Tau Protein as Alzheimer's Biomarker via Microfluidics and Nanofunctionalized Optical Fiber Sensors

Alzheimer's disease (AD) is one of the most common neurodegenerative illnesses displaying the highest death rate in the elderly. However, the existing AD diagnostic system remains elusive due to lack of a technology that may ensure enough sensitivity and reproducibility, detection accuracy, and...

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Published inAdvanced photonics research Vol. 3; no. 11
Main Authors Chiavaioli, Francesco, Santano Rivero, Desiree, Del Villar, Ignacio, Socorro‐Leránoz, Abián B., Zhang, Xuejun, Li, Kaiwei, Santamaría, Enrique, Fernández-Irigoyen, Joaquín, Baldini, Francesco, van den Hove, Daniel L. A., Shi, Lei, Bi, Wei, Guo, Tuan, Giannetti, Ambra, Matias, Ignacio R.
Format Journal Article
LanguageEnglish
Published Hoboken John Wiley & Sons, Inc 01.11.2022
Wiley-VCH
Subjects
Alzheimer's disease
Amino acids
Biomarkers
biophotonic platforms
Brain
Dementia
lossy-mode resonances
Mass spectrometry
Medical imaging
microfluidics
nanofunctionalized optical fibers
Neuroimaging
Proteins
Scanning electron microscopy
Scientific imaging
Sensors
Tomography
United States > US
Online AccessGet full text
ISSN2699-9293
2699-9293
DOI10.1002/adpr.202200044

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Abstract Alzheimer's disease (AD) is one of the most common neurodegenerative illnesses displaying the highest death rate in the elderly. However, the existing AD diagnostic system remains elusive due to lack of a technology that may ensure enough sensitivity and reproducibility, detection accuracy, and specificity. Herein, a straightforward approach is reported to realize lab‐on‐fiber (LoF) technology for AD biomarker detection based on a D‐shaped single‐mode fiber combined with nanometer‐scale metal‐oxide film. The proposed sensing system, which permits the generation of lossy‐mode resonance (LMR), remarkably increases the evanescent field of light guided through the fiber, and hence the fiber‐surrounding medium interaction. Moreover, such optical sensors are highly repeatable in results and can safely be embedded into a compact and stable microfluidic system. Herein, the specific detection of Tau protein (as one of the classical AD biomarkers that is highly correlated with AD progression) in a complex biofluid with a detection limit of 10−12 m and over a wide concentration range (10−3–10 μg mL−1) is successfully demonstrated. The proposed LoF biosensor is an appealing solution for rapid, sub‐microliter dose and highly sensitive detection of analytes at low concentrations, hereby having the potential toward early screening and personalized medicine in AD. The combination of microfluidics and nanofunctionalized optical fiber sensors is an appealing solution for rapid, sub‐microliter dose and highly sensitive detection of analytes at low concentrations, hereby having potential in early screening and personalized medicine. The specific detection of Tau protein (highly correlated with Alzheimer's disease progression) in complex biofluid with detection limit of 10−12 m is successfully demonstrated.
AbstractList Alzheimer's disease (AD) is one of the most common neurodegenerative illnesses displaying the highest death rate in the elderly. However, the existing AD diagnostic system remains elusive due to lack of a technology that may ensure enough sensitivity and reproducibility, detection accuracy, and specificity. Herein, a straightforward approach is reported to realize lab‐on‐fiber (LoF) technology for AD biomarker detection based on a D‐shaped single‐mode fiber combined with nanometer‐scale metal‐oxide film. The proposed sensing system, which permits the generation of lossy‐mode resonance (LMR), remarkably increases the evanescent field of light guided through the fiber, and hence the fiber‐surrounding medium interaction. Moreover, such optical sensors are highly repeatable in results and can safely be embedded into a compact and stable microfluidic system. Herein, the specific detection of Tau protein (as one of the classical AD biomarkers that is highly correlated with AD progression) in a complex biofluid with a detection limit of 10−12 m and over a wide concentration range (10−3–10 μg mL−1) is successfully demonstrated. The proposed LoF biosensor is an appealing solution for rapid, sub‐microliter dose and highly sensitive detection of analytes at low concentrations, hereby having the potential toward early screening and personalized medicine in AD. The combination of microfluidics and nanofunctionalized optical fiber sensors is an appealing solution for rapid, sub‐microliter dose and highly sensitive detection of analytes at low concentrations, hereby having potential in early screening and personalized medicine. The specific detection of Tau protein (highly correlated with Alzheimer's disease progression) in complex biofluid with detection limit of 10−12 m is successfully demonstrated.
Alzheimer's disease (AD) is one of the most common neurodegenerative illnesses displaying the highest death rate in the elderly. However, the existing AD diagnostic system remains elusive due to lack of a technology that may ensure enough sensitivity and reproducibility, detection accuracy, and specificity. Herein, a straightforward approach is reported to realize lab‐on‐fiber (LoF) technology for AD biomarker detection based on a D‐shaped single‐mode fiber combined with nanometer‐scale metal‐oxide film. The proposed sensing system, which permits the generation of lossy‐mode resonance (LMR), remarkably increases the evanescent field of light guided through the fiber, and hence the fiber‐surrounding medium interaction. Moreover, such optical sensors are highly repeatable in results and can safely be embedded into a compact and stable microfluidic system. Herein, the specific detection of Tau protein (as one of the classical AD biomarkers that is highly correlated with AD progression) in a complex biofluid with a detection limit of 10−12 m and over a wide concentration range (10−3–10 μg mL−1) is successfully demonstrated. The proposed LoF biosensor is an appealing solution for rapid, sub‐microliter dose and highly sensitive detection of analytes at low concentrations, hereby having the potential toward early screening and personalized medicine in AD.
Author Baldini, Francesco
Bi, Wei
Li, Kaiwei
Fernández-Irigoyen, Joaquín
Matias, Ignacio R.
van den Hove, Daniel L. A.
Del Villar, Ignacio
Socorro‐Leránoz, Abián B.
Santamaría, Enrique
Santano Rivero, Desiree
Shi, Lei
Zhang, Xuejun
Guo, Tuan
Giannetti, Ambra
Chiavaioli, Francesco
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Snippet Alzheimer's disease (AD) is one of the most common neurodegenerative illnesses displaying the highest death rate in the elderly. However, the existing AD...
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SubjectTerms Alzheimer's disease
Amino acids
Biomarkers
biophotonic platforms
Brain
Dementia
lossy-mode resonances
Mass spectrometry
Medical imaging
microfluidics
nanofunctionalized optical fibers
Neuroimaging
Proteins
Scanning electron microscopy
Scientific imaging
Sensors
Tomography
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Title Ultrahigh Sensitive Detection of Tau Protein as Alzheimer's Biomarker via Microfluidics and Nanofunctionalized Optical Fiber Sensors
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