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All Studies   Meta Analysis       

Antiviral efficacy against and replicative fitness of an XBB.1.9.1 clinical isolate

Uraki et al., iScience, doi:10.1016/j.isci.2023.108147
Nov 2023  
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17th treatment shown to reduce risk in March 2021, now with p = 0.00036 from 31 studies, recognized in 45 countries. Efficacy is variant dependent.
No treatment is 100% effective. Protocols combine treatments.
5,200+ studies for 112 treatments. c19early.org
In Vitro and animal study showing that the SARS-CoV-2 omicron subvariant XBB.1.9.1 has similar antigenicity, antiviral susceptibility, and replicative ability compared to XBB.1.5. Casirivimab, imdevimab, tixagevimab, cilgavimab, sotrovimab, and bebtelovimab were not effective against XBB, XBB.1.5, and XBB.1.9.1. XBB.1.9.1 and XBB.1.5 remained susceptible to remdesivir, molnupiravir, nirmatrelvir, and ensitrelvir. In hamsters infected with a mixture of the two variants, XBB.1.9.1 and XBB.1.5 showed similar replicative fitness in nasal turbinates and lungs.
Efficacy is variant dependent. In Vitro research suggests a lack of efficacy for many omicron variants1-7.
Uraki et al., 30 Nov 2023, peer-reviewed, 20 authors. Contact: yoshihiro.kawaoka@wisc.edu (corresponding author), yoshihiro.kawaoka@wisc.edu (corresponding author).
In Vitro studies are an important part of preclinical research, however results may be very different in vivo.
This PaperCasirivimab/i..All
Antiviral efficacy against and replicative fitness of an XBB.1.9.1 clinical isolate
Ryuta Uraki, Maki Kiso, ..., Mutsumi Ito, Maki Kiso, Seiya Yamayoshi, Kiyoko Iwatsuki-Horimoto, Yuko Sakai-Tagawa, Masaki Imai, Michiko Koga, Shinya Yamamoto, Eisuke Adachi, Makoto Saito, Takeya Tsutsumi, Amato Otani, Shuetsu Fukushi, Shinji Watanabe, Tadaki Suzuki, Tetsuhiro Kikuchi, Hiroshi Yotsuyanagi, Ken Maeda, Yoshihiro Kawaoka
iScience, doi:10.1016/j.isci.2023.108147
Highlights The antigenicity of XBB.1.9.1 is similar to that of XBB.1.5 XBB.1.9.1 remains susceptible to antiviral drugs The replicative ability of XBB.1.9.1 is comparable to that of XBB.1.5
SUPPLEMENTAL INFORMATION Supplemental information can be found online at https://doi.org/10.1016/j.isci.2023.108147 . AUTHOR CONTRIBUTIONS R.U.: conceptualization, formal analysis, validation, visualization, and writing of the first draft. M. Ito, M. Kiso: data curation, formal analysis, and methodology. S. Yamayoshi: conceptualization, data curation, formal analysis, and methodology. K.I-H.: resources and validation. Y.S-T., M. Data and code availability All data used in this paper are available in the main text, in the supplemental information, or the sources have been clearly stated. This paper does not report original code. Any additional information required to reanalyze the data reported in this paper is available from the lead contact upon request. EXPERIMENTAL MODEL AND STUDY PARTICIPANT DETAILS Animal studies were carried out in accordance with the recommendations in the Guide for the Care and Use of Laboratory Animals of the National Institutes of Health. The protocols were approved by the Animal Experiment Committee of the Institute of Medical Science, the University of Tokyo (approval number PA19-75). Virus inoculations were performed under isoflurane, and all efforts were made to minimize animal suffering. To collect and use clinical specimens, the research protocol was approved by the Research Ethics Review Committee of the Institute of Medical Science of the University of Tokyo (approval numbers: 2019-71-0201 and 2020-740226). After informed consent was..
References
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