Anne Tuiskunen Bäck, Johan Rasmuson, Therese Thunberg, Gregory Rankin, Julia Wigren Byström, Charlotta Andersson, Andreas Sjödin, Mattias Forsell, Clas Ahlm
Infectious diseases (London, England) 2022 OctOrthohantaviruses are rodent-borne emerging viruses that cause haemorrhagic fever with renal syndrome (HFRS) in Eurasia and hantavirus pulmonary syndrome in America. Transmission between humans have been reported and the case-fatality rate ranges from 0.4% to 40% depending on virus strain. There is no specific and efficient treatment for patients with severe HFRS. Here, we characterised a fatal case of HFRS and sequenced the causing Puumala orthohantavirus (PUUV). PUUV RNA and virus specific neutralising antibodies were quantified in plasma samples from the fatal case and other patients with non-fatal PUUV infection. To investigate if the causing PUUV strain was different from previously known strains, Sanger sequencing was performed directly from the patient's plasma. Biopsies obtained from autopsy were stained for immunohistochemistry. The patient had approximately tenfold lower levels of PUUV neutralising antibodies and twice higher viral load than was normally seen for patients with less severe PUUV infection. We could demonstrate unique mutations in the S and M segments of the virus that could have had an impact on the severity of infection. Due to the severe course of infection, the patient was treated with the bradykinin receptor inhibitor icatibant to reduce bradykinin-mediated vessel permeability and maintain vascular circulation. Our data suggest that bradykinin receptor inhibitor may not be highly efficient to treat patients that are at an advanced stage of HFRS. Low neutralising antibodies and high viral load at admission to the hospital were associated with the fatal outcome and may be useful for future predictions of disease outcome.
Anne Tuiskunen Bäck, Johan Rasmuson, Therese Thunberg, Gregory Rankin, Julia Wigren Byström, Charlotta Andersson, Andreas Sjödin, Mattias Forsell, Clas Ahlm. Clinical and genomic characterisation of a fatal Puumala orthohantavirus case with low levels of neutralising antibodies. Infectious diseases (London, England). 2022 Oct;54(10):766-772
PMID: 35713235
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