References
- Imperia E , BazzaniL, ScarpaFet al. Avian Influenza: Could the H5N1 Virus Be a Potential Next Threat?. Microbiol. Res., 14(2), 635–645 (2023).
- World Health Organization . Influenza (2023). https://www.who.int/teams/health-product-policy-and-standards/standards-and-specifications/vaccines-quality/influenza
- Centers for Disease Control and Prevention . CDC, National Centre for Immunization and Respiratory Diseases (NCIRD) (2023). https://www.cdc.gov/flu/about/viruses/types.htm
- Centers for Disease Control and Prevention . Types of influenza viruses (2016). https://www.cdc.gov/flu/about/viruses/types.htm
- World Health Organization . 2010 - India WHO (2023). https://www.who.int/emergencies/disease-outbreak-news/item/2010_08_06-en
- Thompson AJ , PaulsonJC. Adaptation of influenza viruses to human airway receptors. J. Biol. Chem., 296, 100017 (2021).
- Marinelli TM , KumarD. Influenza Virus Infection and Transplantation. Transplantation, 105(5), 968–978 (2021).
- Boora S , KhanA, SharmaVet al. RT-LAMP is a potential future molecular diagnostic tool for influenza A virus. Future Virol., 18(3), 165–175 (2023).
- Wang C , LiuM, WangZet al. Point-of-care diagnostics for infectious diseases: from methods to devices. Nano. Today., 37, 101092 (2021).
- Al Khatib HA , AlThani AA, GallouziI, YassineHM. Epidemiological and genetic characterization of pH1N1 and H3N2 influenza viruses circulated in MENA region during 2009–2017. BMC Infect. Dis., 19(1), 1–22 (2019)
- Tiong V , HassandarvishP, BakarSAet al. The effectiveness of various gargle formulations and salt water against SARS-CoV-2. Sci. Rep., 11(1), 1–7 (2021).
- McAdam AJ , RileyAM. Developments in tissue culture detection of respiratory viruses. Clin. Lab. Med., 29(4), 623–634 (2009).
- Sharma V , ChaudhryD, KaushikS. Evaluation of clinical applicability of reverse transcription-loop-mediated isothermal amplification assay for detection and subtyping of Influenza A viruses. J. Virol. Methods, 253, 18–25 (2018).
- Courtney SJ , StrombergZR, Kubicek-SutherlandJZ. Nucleic acid-based sensing techniques for diagnostics and surveillance of influenza. Biosensors., 11(2), 47 (2021).
- Khan A , SinghR, SharmaSet al. Diagnosis of osteoarticular tuberculosis by immuno-PCR assay based on mycobacterial antigen 85 complex detection. Lett. Appl. Microbiol., 74(1), 17–26 (2022).
- Khan A , KamraE, SinghRet al. Diagnosis of osteoarticular tuberculosis: multi-targeted loop-mediated isothermal amplification assay versus multiplex PCR. Future. Microbiol., 16(13), 935–948 (2021).
- Louie JK , GuevaraH, BostonEet al. Rapid influenza antigen test for diagnosis of pandemic (H1N1) 2009. Emerg. Infect. Dis., 16(5), 824–826 (2010).
- Notomi T , OkayamaH, MasubuchiHet al. Loop-mediated isothermal amplification of DNA. Nucleic Acids Res., 28(12), e63 (2000).
- Centres for Disease Control and Prevention . Overview of Influenza Testing Methods. CDC (2023). https://www.cdc.gov/flu/professionals/diagnosis/overview-testing-methods.htm
- Stephenson I , HeathA, MajorDet al. Reproducibility of serologic assays for influenza virus A (H5N1). Emerg. Infect. Dis., 15(8), 1250–1259 (2009).