Virus persistence after recovery from acute Lassa fever in Nigeria: a 2-year interim analysis of a prospective longitudinal cohort study

Anke Thielebein,Racheal Omiunu,Thomas Olokor,Yemisi Ighodalo,Danny Asogun,Stephan Günther,Julia Hinzmann,Elisa Pallasch,Nosa Akpede,Anieno Ekanem,Paulson Ebhodaghe,Meike Pahlmann,Joy Nwatuzor,Jonas Müller,Donatus I Adomeh,Sylvanus Okogbenin,Rita Esumeh,Ganiyu Igenegbale,Sophie Duraffour,Abubakar Taju,Rosemary Giwa,Lisa Oestereich,Annick Renevey,Ephraim Ogbaini-Emovon,Oluwasola Femi Babatunde,Jérémie Guedj

doi:10.1016/s2666-5247(21)00178-6

Abstract

There is anecdotal evidence for Lassa virus persistence in body fluids. We aimed to investigate various body fluids after recovery from acute Lassa fever, describe the dynamics of Lassa virus RNA load in seminal fluid, and assess the infectivity of seminal fluid. In this prospective, longitudinal, cohort study we collected plasma, urine, saliva, lacrimal fluid, vaginal fluid, and seminal fluid from Lassa fever survivors from Irrua Specialist Teaching Hospital in Edo State, Nigeria. Inclusion criteria for participants were RT-PCR-confirmed Lassa fever diagnosis and age 18 years or older. Samples were taken at discharge from hospital (month 0) and at months 0·5, 1, 3, 6, 9, 12, 18, and 24 after discharge. The primary objective of this study was to quantitatively describe virus persistence and clearance and assess the infectivity of seminal fluid. Lassa virus RNA was detected using real-time RT-PCR. Infectivity was tested in cell culture and immunosuppressed mice. We used a linear mixed-effect model to analyse the dynamics of virus persistence in seminal fluid over time. Between Jan 31, 2018, and Dec 11, 2019, 165 participants were enrolled in the study, of whom 159 were eligible for analysis (49 women and 110 men). Low amounts of Lassa virus RNA were detected at month 0 in plasma (49 [45%] of 110 participants), urine (37 [34%]), saliva (five [5%]), lacrimal fluid (ten [9%]), and vaginal fluid (seven [21%] of 33 female participants). Virus RNA was cleared from these body fluids by month 3. However, 35 (80%) of 44 male participants had viral RNA in seminal fluid at month 0 with a median cycle threshold of 26·5. Lassa virus RNA remained detectable up to month 12 in seminal fluid. Biostatistical modelling estimated a clearance rate of 1·19 log10 viral RNA copies per month and predicted that 50% of male survivors remain Lassa virus RNA-positive in seminal fluid for 83 days after hospital discharge and 10% remain positive in seminal fluid for 193 days after discharge. Viral RNA persistence in seminal fluid for 3 months or more was associated with higher viraemia (p=0·006), more severe disease (p=0·0075), and longer hospitalisation during the acute phase of Lassa fever (p=0·0014). Infectious virus was isolated from 48 (52%) of 93 virus RNA-positive seminal fluid samples collected between month 0 and 12. Lassa virus RNA is shed in various body fluids after recovery from acute disease. The persistence of infectious virus in seminal fluid implies a risk of sexual transmission of Lassa fever. German Federal Ministry of Health, German Research Foundation, Leibniz Association.

Highlights

Lassa fever is a viral haemorrhagic illness that is endemic in west Africa and caused by the Lassa virus, a negativestrand RNA virus belonging to the Arenaviridae family
Lassa virus RNA was found in the urine of 37 of 110 participants (34%, 26–43), in saliva of five of 110 participants (5%, 2–10), in lacrimal fluid of ten of 109 participants (9%, 5–19), and in vaginal fluid of seven of 33 female participants (21%, 11–38; appendix 1 p 6)
The highest Lassa virus RNA detection rate at any point in time was found with seminal fluid. 35 of 44 male participants (80%, 66–89) tested positive at month 0 and 63 of 81 male participants (78%, 68–86) tested positive at month 0·5

Summary

Introduction

Lassa fever is a viral haemorrhagic illness that is endemic in west Africa and caused by the Lassa virus, a negativestrand RNA virus belonging to the Arenaviridae family. The main natural reservoir of Lassa virus is multimam mate mice, principally Mastomys natalensis (the Natal multimammate mouse), Mastomys erythroleucus (the Guinea multimammate mouse) has been described as an alternative host. It is assumed that most human infections are due to spillover from the rodent reservoir.[4,5,6] Human-to-human transmission in the nosocomial setting is documented.[7] Sexual transmission has never been described for Lassa fever, there are reports of Argentine haemorrhagic fever, which is caused by the Lassa-related arenavirus Junín virus.[8]

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Conclusion