Author: Owoicho, Oloche; Olwal, Charles Ochieng’; Quaye, Osbourne
Title: Potential of laserâ€induced fluorescenceâ€light detection and ranging for future standâ€off virus surveillance Cord-id: np91x8tp Document date: 2020_11_26
ID: np91x8tp
Snippet: Viruses remain a significant public health concern worldwide. Recently, humanity has faced deadly viral infections, including Zika, Ebola and the current severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2). The threat is associated with the ability of the viruses to mutate frequently and adapt to different hosts. Thus, there is the need for robust detection and classification of emerging virus strains to ensure that humanity is prepared in terms of vaccine and drug developments. A p
Document: Viruses remain a significant public health concern worldwide. Recently, humanity has faced deadly viral infections, including Zika, Ebola and the current severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2). The threat is associated with the ability of the viruses to mutate frequently and adapt to different hosts. Thus, there is the need for robust detection and classification of emerging virus strains to ensure that humanity is prepared in terms of vaccine and drug developments. A point or standâ€off biosensor that can detect and classify viruses from indoor and outdoor environments would be suited for viral surveillance. Light detection and ranging (LiDAR) is a facile and versatile tool that has been explored for standâ€off detection in different environments including atmospheric, oceans and forest sensing. Notably, laserâ€induced fluorescenceâ€light detection and ranging (LIFâ€LiDAR) has been used to identify MS2 bacteriophage on artificially contaminated surgical equipment or released amidst other primary biological aerosol particles in laboratoryâ€like close chamber. It has also been shown to distinguish between different picornaviruses. Currently, the potentials of the LIFâ€LiDAR technology for realâ€time standâ€off surveillance of pathogenic viruses in indoor and outdoor environments have not been assessed. Considering the increasing applications of LIFâ€LiDAR for potential microbial pathogens detection and classification, and the need for more robust tools for viral surveillance at safe distance, we critically evaluate the prospects and challenges of LIFâ€LiDAR technology for realâ€time standâ€off detection and classification of potentially pathogenic viruses in various environments.
Search related documents:
Co phrase search for related documents- long range and low concentration: 1
- long range and low frequency: 1
- long short and low concentration: 1
- long short and low frequency: 1, 2, 3, 4, 5, 6, 7
Co phrase search for related documents, hyperlinks ordered by date