posted on 2020-10-22, 18:16authored byInae Lee, Youngung Seok, Huijin Jung, Byungjin Yang, Jiho Lee, Jaeyoung Kim, Heesoo Pyo, Chang-Seon Song, Won Choi, Min-Gon Kim, Joonseok Lee
Airborne
pathogens causing infectious diseases are often highly
transmittable between humans. Therefore, an airborne pathogen-monitoring
system capable of on-site detection and identification would aid tremendously
in preventing and controlling the early stages of pathogen spread.
Here, we describe an integrated sampling/monitoring platform for on-site
and real-time detection of airborne viruses. We used MS2 bacteriophage
and avian influenza virus (AIV) H1N1 to evaluate bioaerosol sampling
and detection performance of the platform. Our results show that,
within 20 min, aerosolized viruses can be detected using the signal
of near-infrared (NIR)-to-NIR nanoprobes. The pretreatment of the
sampling pad improved the transfer efficiency of MS2 viruses to the
detection zone, compared to an untreated pad. Our platform could detect
concentrations as low as 104.294 50% egg infectious dose
(EID50)/m3 AIVs collected from a cloacal swab
sample (104.838 EID50/mL). These results indicate
that our sampling/monitoring platform could be applied for the early
detection of biological hazards in various fields.