Increased Likelihood of Detecting Ebola Virus RNA in Semen by Using Sample Pelleting

Ebola virus RNA can reside for months or years in semen of survivors of Ebola virus disease and is probably associated with increased risk for cryptic sexual transmission of the virus. A modified protocol resulted in increased detection of Ebola virus RNA in semen and improved disease surveillance.

D uring 2013-2016, Ebola virus (EBOV; family Filoviridae, genus Ebolavirus, species Zaire ebolavirus) caused an unprecedented outbreak of Ebola virus disease (EVD) that began in Guinea and subsequently affected Liberia, Sierra Leone, and, to a much lesser degree, several other countries in West Africa. Due in part to the lack of medical infrastructure and response preparedness in these countries, the outbreak ultimately involved 28,652 human infections and 11,325 deaths (1,2).
The large number of EVD survivors enabled detailed studies, such as the Partnership for Research on Ebola Virus (PREVAIL) III study (3), which aimed at characterizing potential EVD sequelae and EBOV persistence in a cohort of 1,144 EVD survivors in Liberia over the course of 5 years. An unexpected observation of these studies was the persistence of EBOV RNA and sometimes-replicating EBOV in the brain, eyes, and semen of survivors (4). EBOV RNA persistence in semen of EVD survivors, measurable up to 40 months (3,5), has been associated with rare events of sexual EBOV transmission and EVD outbreak flareups (6).
Assuming a causal relationship between EBOV RNA and EBOV presence in semen, we collaborated with the overseas response team to initiate an ongoing (and unpublished) trial, PREVAIL IV, to counter sexual EBOV transmission from survivors through reduction of viral RNA concentrations in semen by using the candidate medical countermeasure remdesivir. However, interpretation of data obtained in studies such as PREVAIL IV is crucially dependent on the sensitivity of EBOV RNA detection in semen samples.
The GeneXpert Systems (Cepheid, https://www. cepheid.com) are diagnostic platforms that implement single-use cartridges to simultaneously extract and detect RNA by using reverse transcription PCR. During PREVAIL III (3), the GeneXpert IV System was applied to standard processing of EBOV survivor semen Ebola virus RNA can reside for months or years in semen of survivors of Ebola virus disease and is probably associated with increased risk for cryptic sexual transmission of the virus. A modified protocol resulted in increased detection of Ebola virus RNA in semen and improved disease surveillance. samples using EBOV nucleoprotein and glycoprotein RNA-specific GeneXpert cartridges Cepheid) (7): 100 µL of semen sample was transferred directly into 2.5 mL of lysis buffer provided in the kit and incubated for 10 min, followed by a second incubation of 5 min in presence of 100 µL of 1 M dithiothreitol (Sigma-Aldrich, https://www.sigmaaldrich.com). Within 30 min of processing, 1 mL of this solution was then loaded into the cartridge, run according to the manufacturer's instructions, and analyzed with GeneXpert Diagnostic Software (8).
We sought to further increase the EBOV RNA detection sensitivity (then 3.1% and 2.9% with whole samples) of this protocol for semen. For this experiment, 1,661 EVD survivor samples and nonsurvivor controls from PREVAIL III and IV with sample volumes >1.6 mL were divided into 2 cohorts and processed either as described above (whole sample) or first pelleted (pellet sample) by using 2 replicate experiments each (A and B).
For pelleting, we centrifuged 300 µL of each semen sample at 10,000 × g for 10 min. After pelleting, we discarded supernatants, resuspended pellets by pipetting in 100 µL of kit-provided lysis buffer and incubated for 10 min, and incubated for 5 min in presence of 100 µL of 1 M dithiothreitol. Then, we loaded 100 µL of each sample onto cartridges and processed the same way as the standard, unpelleted control sample. Samples were considered valid and positive when both the kitprovided sample processing control and probe check control passed kit criteria and EBOV nucleoprotein or glycoprotein RNA was detected.
Overall, an average of 3.0% of the whole sample-cohort was positive, compared with an average of 5.0% of the pellet-sample cohort, thereby almost doubling the detection rate (p<0.0001) (Table). We observed variability among replicates A and B (0.7% for the pellet and 0.2% for the whole sample), but this difference was not significant (p = 0.35) according to the F-test for the equality of 2 variances.
Mixed-effects logistic regression models appropriate to the study design (with random effects for specimens and random effects for replicates nested within specimens) yielded an estimated relative sensitivity of 2.24 (95% CI 1.51-2.98; p<0.0001) in favor of the pellet-based procedure. Thus, when semen sample volumes from EVD survivors are >300 µL, we recommend pelleting 300 µL to increase the EBOV RNA detection rate and using the GeneXpert IV System. *Also included are no. invalid samples (i.e., those that did not pass 1 or both of the controls (sample processing control and probe check control).