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Short-Wave Infrared Fluorescence Chemical Sensor for Detection of Otitis Media

2020; American Chemical Society; Volume: 5; Issue: 11 Linguagem: Inglês

10.1021/acssensors.0c01272

2379-3694

Joshua J. Yim, Surya Pratap Singh, Anping Xia, Raana Kashfi‐Sadabad, Martina Tholen, David M. Huland, David Zarabanda, Zhixin Cao, Paola Solís-Pazmiño, Matthew Bogyo, Tulio A. Valdez,

Acoustic Wave Resonator Technologies

Otitis media (OM) or middle ear infection is one of the most common diseases in young children around the world. The diagnosis of OM is currently performed using an otoscope to detect middle ear fluid and inflammatory changes manifested in the tympanic membrane. However, conventional otoscopy cannot visualize across the tympanic membrane or sample middle ear fluid. This can lead to low diagnostic certainty and overdiagnoses of OM. To improve the diagnosis of OM, we have developed a short-wave infrared (SWIR) otoscope in combination with a protease-cleavable biosensor, 6QC-ICG, which can facilitate the detection of inflammatory proteases in the middle ear with an increase in contrast. 6QC-ICG is a fluorescently quenched probe, which is activated in the presence of cysteine cathepsin proteases that are up-regulated in inflammatory immune cells. Using a preclinical model and custom-built SWIR otomicroscope in this proof-of-concept study, we successfully demonstrated the feasibility of robustly distinguishing inflamed ears from controls (p = 0.0006). The inflamed ears showed an overall signal-to-background ratio of 2.0 with a mean fluorescence of 81 ± 17 AU, while the control ear exhibited a mean fluorescence of 41 ± 11 AU. We envision that these fluorescently quenched probes in conjunction with SWIR imaging tools have the potential to be used as an alternate/adjunct tool for objective diagnosis of OM.