London: Scientists have found potential evidence of Ebola virus replication in the lungs of a person recovering from infection, an advance that may pave the way for new treatment approaches and help better understand how the deadly virus is transmitted.


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From 2013 to 2016, West Africa experienced an unprecedented outbreak of hemorrhagic Ebola.


Lab studies, animal studies and observations of evacuated patients treated in Europe and the US have suggested that Ebola might cause lung damage by replicating itself in lung tissue.


However, no direct evidence yet exists for lung infection by the Ebola virus.


To better understand how the lungs might be involved in Ebola, researchers at the Lazzaro Spallanzani National Institute for Infectious Diseases in Italy tracked the presence of Ebola virus genetic material in the lungs and the blood of a single patient during treatment and recovery.


The patient was a healthcare worker who was evacuated from West Africa and treated in Rome.


Specifically, the scientists monitored the patient's lung levels of viral RNA fragments known to be associated with Ebola replication and compared these with viral RNA levels in the patient's blood.


They found that viral RNA and viral replication markers remained in the lungs for about five days after it was no longer detectable in the blood.


The results suggest that Ebola virus may have been replicating in the lungs. It is possible that the lungs simply provided a protective environment that allowed RNA to linger longer than it did in the blood.


However, the presence of RNA for both total and replication markers in the lungs supports the possibility of active replication, researchers said.


"We demonstrated a long persistence EBOV replication markers within the respiratory tract, compared to plasma," they said.


"This suggests a major role of the respiratory tissues in the pathogenesis of Ebola virus disease," they added.


Further research will be needed to better understand the potential role of lung infection in Ebola and whether it may be a factor in transmission of the virus from one human to another.