The Application of Label-free Detection Using a Tapered Optical Fiber System for Head and Neck Cancer and Infectious Biomolecules

Author:

Collet Casey,Deng Cong,Ranathunga Chaminda,Banerjee Partha P.,Lin De-Chen,Sinha Uttam

Abstract

AbstractIntroductionHead and neck squamous cell carcinoma (HNSCC) is associated with high morbidity and mortality due to late detection. Tapered optical fiber sensors (TOFS) are biosensors with the potential application as a point-of-care device for detection of HNSCC biomarkers. TOFS uses optical fibers as transduction elements and antigen-antibody binding for the detection of target biomolecules. The present TOFS system was designed to achieve high specificity, sensitivity, and repeatability. To explore its application in HNSCC, we targeted the proinflammatory cytokine IL-8, known for its role in promoting tumorigenicity, metastasis, and angiogenesis in HNSCC. To validate our proof-of-concept experiment, a viral surrogate of SARS-CoV-2, Human Coronavirus OC43 (HCoV-OC43), was also tested.MethodsOur TOFS system contains four main parts: the tapered optical fiber, reservoir (cell), laser light source, and photodetector. The fiber is bitapered with a narrow waist region that anchors antibodies to detect target biomolecules. Light is transduced by the laser to the fiber where it travels through the down-taper region to the tapered waist followed by the up-tapered region and ultimately transmitted to the photodetector. The tapered waist facilitates the transformation of a single mode light to multiple modes, which reverts to a single mode of light as it continues through the up-taper region. Biomolecules introduced to the waist region alter the effective refractive index, which is reflected in the phase change of the wavelength. This is detected by the photodetector and quantified using Fouier analysis. Our tapered fibers were designed with antigen-antibody complexes targeting IL-8 and HCoV-OC43 to validate our TOFS design across two different antigens.ResultsTOFS with tethered mouse anti-human IgG (28nm) bound to dissolved IL-8 (14 nm) produces a measurable phase shift. As little as 10pg/ml or 7.1X105IL-8 molecules/μl was detected by the prototype device and the phase change represented in real-time the binding dynamic of IL-8 to the tethered IgG. To validate our proof-of-concept experiment, HCoV-OC43 dissolved in saliva was detected with a sensitivity of 50 viruses/mL.ConclusionsTOFS device is a highly sensitive system capable of detecting proteins, viruses, and other biomolecules. Selectivity of the system is guaranteed by specific antigen-antibody binding, supported by the detection of IL-8 and HCoV-OC43 at the femtomolar level. The long-term goal for TOFS is its application as a point-of-care device used for detection, monitoring, and surveillance of HNSCC as well as detection of other pathogens in the clinical setting.

Publisher

Cold Spring Harbor Laboratory

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