Department of Biomedical Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan 44919, Republic of Korea.
School of Mechanical, Aerospace and Nuclear Engineering, UNIST, Ulsan 44919, Republic of Korea.
Environ Sci Technol. 2020 Sep 1;54(17):10700-10712. doi: 10.1021/acs.est.0c00441. Epub 2020 Aug 24.
Airborne influenza viruses are responsible for serious respiratory diseases, and most detection methods for airborne viruses are based on extraction of nucleic acids. Herein, vertical-flow-assay-based electrochemical paper immunosensors were fabricated to rapidly quantify the influenza H1N1 viruses in air after sampling with a portable electrostatic particle concentrator (EPC). The effects of antibodies, anti-influenza nucleoprotein antibodies (NP-Abs) and anti-influenza hemagglutinin antibodies (HA-Abs), on the paper sensors as well as nonpulsed high electrostatic fields with and without corona charging on the virus measurement were investigated. The antigenicity losses of the surface (HA) proteins were caused by HO via lipid oxidation-derived radicals and O via direct protein peroxidation upon exposure of a high electrostatic field. However, minimal losses in antigenicity of NP of the influenza viruses were observed, and the concentration of the H1N1 viruses was more than 160 times higher in the EPC than the BioSampler upon using NP-Ab based paper sensors after 60 min collection. This NP-Ab-based paper sensors with the EPC provided measurements comparable to quantitative polymerase chain reaction (qPCR) but much quicker, specific to the influenza H1N1 viruses in the presence of other airborne microorganisms and beads, and more cost-effective than enzyme-linked immunosorbent assay and qPCR.
空气中的流感病毒可引发严重的呼吸道疾病,大多数空气中病毒的检测方法都基于核酸提取。本研究基于垂直流动分析,制备了电化学生物纸免疫传感器,利用便携式静电颗粒浓缩器(EPC)采集空气样本后,可快速定量空气中的甲型 H1N1 流感病毒。本文考察了抗体(抗流感核蛋白抗体(NP-Ab)和抗流感血凝素抗体(HA-Ab))、无脉冲强静电场和有脉冲强静电场(荷电晕)对纸传感器的影响,以及强静电场对病毒检测的影响。HO 通过脂质氧化衍生的自由基和 O 通过直接蛋白过氧化作用导致表面(HA)蛋白的抗原性丧失。然而,流感病毒的 NP 抗原性损失较小,在使用 NP-Ab 基于纸传感器 60 分钟收集后,EPC 收集的 H1N1 病毒浓度比 BioSampler 高 160 多倍。该基于 NP-Ab 的纸传感器与 EPC 结合,提供了与定量聚合酶链反应(qPCR)相当的测量结果,但速度更快,在存在其他空气传播微生物和微球的情况下,对甲型 H1N1 流感病毒具有特异性,且比酶联免疫吸附测定和 qPCR 更具成本效益。
