Ebola surveillance may become quicker and cheaper

PUBLIC RELEASE DATE:

18-Nov-2014

Contact: Joel Winston joel.winston@biomedcentral.com 44-203-192-2081 BioMed Central @biomedcentral

A new method for examining the Ebola virus genome could make surveillance quicker and cheaper for West African nations, and help detect new forms of the virus. The detailed procedure is being shared with the research community along with the study paper, which is freely available in the open access journal Genome Biology.

With over 13,000 cases and nearly 5,000 deaths in eight affected countries, the current Ebola outbreak in West Africa is the largest to date, the first to spread to densely populated urban areas, and represents the first time the virus has been diagnosed outside of Africa.

To help contain the current outbreak, experts say that surveillance remains key. Detecting viral RNA genomes in suspected fever patients helps confirm diagnoses of Ebola, and aids decisions to quarantine patients and begin tracing their contacts. Yet sequencing viral genomes directly from blood samples holds many challenges. Samples contain very little viral RNA and are heavily contaminated with human RNA, while hot climates cause rapid degradation of viral RNA material and biosafety measures bring further complications for handling samples. As such few Ebola genomes have been sequenced.

Research led by the Broad Institute, USA, has now revealed a new method to sequence genomes of the Ebola virus, that lowers contaminating human RNA from 80% to less than 0.5%, and was proven to work through the rapid sequencing of nearly 100 Ebola patient blood samples from the current outbreak, with a turnaround time of 10 days. The method is also cost-effective, and may help West African nations rapidly and effectively track outbreaks with limited resources.

The research team was initially developing a method for sequencing Lassa virus that causes hemorrhagic fever prevalent in West Africa. They were able to define a laboratory procedure using enzymes and chemical reagents which led to almost complete removal of contaminant human RNA from their Lassa fever samples. Once the Ebola outbreak spread to their research site in Sierra Leone, they were asked to put their newly developed sequencing method to the test.

Using their improved sequencing approach, the team processed samples from 78 Ebola patients and reduced the normal length of the process threefold. Their method also lowered costs by allowing them to sequence and assemble more viral genomes using fewer steps with a higher success rate.

Lead author Christian Matranga from the Broad Institute said: "We were surprised that our strategy worked so well with such diverse, and often difficult samples of undefined quality and quantity. And because of the speed of our approach, we were rapidly able to make the viral genetic data available to the scientific community to provide timely insights for ongoing surveillance and control efforts in the area."

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Ebola surveillance may become quicker and cheaper