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Postmortem Stability of Ebola Virus

Date:
February 12, 2015
Source:
NIH/National Institute of Allergy and Infectious Diseases
Summary:
To determine how long Ebola virus could remain infectious in a body after death, scientists sampled deceased Ebola-infected monkeys and discovered the virus remained viable for at least seven days. They also detected non-infectious viral RNA for up to 70 days post-mortem.

Abstract

The ongoing Ebola virus outbreak in West Africa has highlighted questions regarding stability of the virus and detection of RNA from corpses. We used Ebola virus–infected macaques to model humans who died of Ebola virus disease. Viable virus was isolated 7 days posteuthanasia; viral RNA was detectable for 10 weeks.
Joseph Prescott, Trenton Bushmaker, Robert Fischer, Kerri Miazgowicz, Seth Judson, and Vincent J. Munster
Author affiliations: National Institutes of Health, Hamilton, Montana, USA

Research: 
The ongoing outbreak of Ebola virus (EBOV) infection in West Africa highlights several questions, including fundamental questions surrounding human-to-human transmission and stability of the virus. More than 20,000 cases of EBOV disease (EVD) have been reported, and >8,000 deaths have been documented (1). Human-to-human transmission is the principal feature in EBOV outbreaks; virus is transmitted from symptomatic persons or contaminated corpses or by contact with objects acting as fomites (2). Contact with corpses during mourning and funeral practices, which can include bathing the body and rinsing family members with the water, or during the removal and transportation of bodies by burial teams has resulted in numerous infections (3).
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Assessing the stability of corpse-associated virus and determining the most efficient sampling methods for diagnostics will clarify the safest practices for handling bodies and the best methods for determining whether a person has died of EVD and presents a risk for transmission. To facilitate diagnostic efforts, we studied nonhuman primates who died of EVD to examine stability of the virus within tissues and on body surfaces to determine the potential for transmission, and the presence of viral RNA associated with corpses.

The Study

We studied 5 cynomolgus macaques previously included in EBOV pathogenesis studies and euthanized because of signs of EVD and viremia. Two animals were infected with EBOV-Mayinga and 3 with a current outbreak isolate (Makona-WPGC07) (4).
Immediately after euthanasia, multiple samples were collected: oral, nasal, ocular, urogenital, rectal, skin, and blood (pooled in the body cavity) swab samples and tissue biopsy specimens: from the liver, spleen, lung, and muscle. Swabs were placed in 1 mL of culture medium and tissue samples were placed in 500 μL of RNAlater (QIAGEN, Valencia, CA, USA), or an empty vial for titration, before freezing at −80°C. Carcasses were placed in vented plastic containers in an environmental chamber at 27°C and 80% relative humidity throughout the study to mimic conditions in West Africa (5). At the indicated time points (<9 days for 2 animals and 10 weeks for 3 animals), swab and tissue samples were obtained and used for EBOV titration on Vero E6 cells to quantify virus or for quantitative reverse transcription PCR (qRT-PCR) (40 cycles) to measure viral RNA, as reported (6,7).
Viral RNA was detectible in all swab samples and tissue biopsy specimens at multiple time points (Figure 1). For swab samples (Figure 1, panel A), the highest amount of viral RNA was in oral, nasal, and blood samples; oral and blood swab specimens consistently showed positive results for all animals until week 4 for oral specimens and week 3 for blood, when 1 animal was negative for each specimen type. Furthermore, oral swab specimens had the highest amount of viral RNA after the first 2 weeks of sampling, although after the 4-week sampling time point, some samples from individual animals were negative.
In all samples, RNA was detectable sporadically for the entire 10-week period, except for blood, which had positive results for <9 weeks. Tissue samples were more consistently positive within the first few weeks after euthanasia (Figure 1, panel B). All samples from the liver and lung were positive for the first 3 weeks, and spleen samples were positive for the first 4 weeks, at which time lung and spleen samples were no longer tested because of decay and scarcity of tissue. Muscle sample results were sporadic: a sample from 1 animal was negative at the 1-day time point and at several times throughout sampling.
Figure 1. Presence and stability of Ebola virus RNA in deceased cynomolgus macaques. Swab (A) and tissue (B) specimen samples were obtained at the indicated time points, and viral RNA was isolated and used in a 1-step quantitative reverse transcription PCR with a primer/probe set specific for the nucleoprotein gene and standards consisting of known nucleoprotein gene copy numbers. Line plots show means of positive samples from 5 animals up to the 7 day time point and from 3 animals thereafter. Error bars indicate SD, and - indicates time points at which ≥1 animal had undetectable levels of viral RNA at that time point. Absence of a hyphen indicates that all animals had detectible levels of viral RNA.
Figure 2. Efficiency of Ebola virus isolation from deceased cynomolgus macaques. Swab (A) and tissue (B) specimen samples were obtained at the indicated time points, and virus isolation was attempted on Vero E6 cells. Cells were inoculated in triplicate with serial dilutions of inoculum from swab specimens placed in 1 mL of medium or tissues homogenized in 1 mL of medium. The 50% tissue culture infectious dose (TCID50) was calculated by using the Spearman-Karber method (8). Line plots show means of positive samples from 5 animals to the day 9 time point. Error bars indicate SD.

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Viable EBOV was variably isolated from swab from all sampling sites. Among blood samples, those from the body cavity had the highest virus titer (2 × 105 50% tissue culture infectious doses/mL) and longest-lasting isolatable virus (7 days posteuthanasia) (Figure 2, panel A). Consistent with the qRT-PCR results, for swab samples, oral and nasal sample titers were highest, followed by those for blood samples, and relatively high titers were observed <4 days posteuthanasia (Figure 2, panel B). Similar to the qRT-PCR experiments, virus titers were higher in tissue samples than in swab samples but were not as sustained; all tissue samples were positive at day 3 posteuthanasia but negative by day 4.

Conclusions

The efficiency of detecting EBOV from corpse samples has not been systematically studied; this information is needed for interpreting results for diagnostic samples for epidemiologic efforts during outbreaks. We showed that viral RNA is readily detectable from oral and blood swab specimens for <3 weeks postmortem from a monkey carcass that was viremic at the time of death, in environmental conditions similar to those during current outbreak (5).
The stability of the target RNA used for RT-PCR is more robust than that of viable virus because degradation of any part of the genome (or proteins and lipids) would compromise the ability of the virus to replicate. Thus, the ability to isolate replicating virus in cell culture from postmortem materials was much less sensitive than detection of viral RNA by qRT-PCR. The sensitivity for quantitating infectious virus is probably lowered because of limitations in isolation efficiency on cell culture and necessary dilutions of tissues for homogenization for titration. Nonetheless, we detected viable virus <7 days posteuthanasia in swab specimens and 3 days in tissues, and showed that infectious virus is present at least until these times. Because virus titers decreased relatively sharply, despite sensitivity issues, it is unlikely that viable virus persists for times longer than we measured.
Humans who die of EVD typically have high levels of viremia, suggesting that most fresh corpses contain high levels of infectious virus, similar to the macaques in this study (9). Furthermore, family members exposed to EVD patients during late stages of disease or who had contact with deceased patients have a high risk for infection (2). The presence of viable EBOV and viral RNA in body fluids of EVD patients has been studied, and oral swabbing has been shown to be effective for diagnosis of EVD by RT-PCR compared with testing of serum samples from the same persons (10,11). However, detection limits for diagnostic swab samples are unknown for early phases of EVD, and blood sampling is probably more sensitive and reliable for antemortem diagnostics and should be used whenever possible, which has also been shown with closely related Marburg virus (12).
Although these studies included data from outbreak situations, they are limited in their sampling numbers, swabbing surfaces, and time course, and it is unknown how predictive they are for samples collected postmortem. It is essential to stress that swab samples should be obtained by vigorous sampling to acquire sufficient biologic material for testing, and development of a quality-control PCR target (housekeeping gene target) would be beneficial for sample integrity assessment, which is a limitation of this study.
In summary, we present postmortem serial sampling data for EBOV-infected animals in a controlled environment. Our results show that the EBOV RT-PCR RNA target is highly stable, swabbing upper respiratory mucosa is efficient for obtaining samples for diagnostics, and tissue biopsies are no more effective than simple swabbing for virus detection. These results will directly aid interpretation of epidemiologic data collected for human corpses by determining whether a person had EVD at the time of death and whether contact tracing should be initiated. Furthermore, viable virus can persist for >7 days on surfaces of bodies, confirming that transmission from deceased persons is possible for an extended period after death. These data are also applicable for interpreting samples collected from remains of wildlife infected with EBOV, especially nonhuman primates, and to assess risks for handling these carcasses.
Dr. Prescott is a research fellow in the Virus Ecology Unit at Rocky Mountain Laboratories, Hamilton, Montana. He is currently involved in the Ebola virus outbreak at the combined Centers for Disease Control and Prevention/National Institutes of Health diagnostic laboratory, Monrovia, Liberia. His research interests include the immune response, transmission, and modeling of viral hemorrhagic fevers.

Acknowledgments


We thank Darryl Falzarano and Andrea Marzi for use of animal carcasses upon completion of their studies and Anita Mora for providing assistance with graphics.
This study was supported by the Division of Intramural Research, National Institute of Allergy and Infectious Diseases, National Institutes of Health.

References

  1. Centers for Disease Control and Prevention. Ebola hemorrhagic fever [cited 2015 Jan 3]. http://www.cdc.gov.ezproxy.nihlibrary.nih.gov/vhf/ebola/
  2. Dowell SFMukunu RKsiazek TGKhan ASRollin PEPeters CJTransmission of Ebola hemorrhagic fever: a study of risk factors in family members, Kikwit, Democratic Republic of the Congo, 1995. J Infect Dis1999;179(Suppl 1):S8791 . DOIPubMed
  3. Khan ASTshioko FKHeymann DLLe Guenno BNabeth PKerstiëns BThe reemergence of Ebola hemorrhagic fever, Democratic Republic of the Congo, 1995. J Infect Dis1999;179(Suppl 1):S7686DOIPubMed
  4. Hoenen TGroseth AFeldmann FMarzi AEbihara HKobinger GComplete genome sequences of three Ebola virus isolates from the 2014 outbreak in West Africa. Genome Announc. 2014;2:e01331–14.
  5. Ng SCowling BAssociation between temperature, humidity and ebolavirus disease outbreaks in Africa, 1976 to 2014. Euro Surveill.2014;19:20892 .PubMed
  6. Marzi AEbihara HCallison JGroseth AWilliams KJGeisbert TWVesicular stomatitis virus–based Ebola vaccines with improved cross-protective efficacy. J Infect Dis2011;204(Suppl 3):S106674DOIPubMed
  7. Ebihara HRockx BMarzi AFeldmann FHaddock EBrining DHost response dynamics following lethal infection of rhesus macaques with Zaire ebolavirus. J Infect Dis2011;204(Suppl 3):S9919DOIPubMed
  8. Finney DJ. Statistical method in biological assay. New York: Macmillian Publishing Co., Inc.; 1978. p. 394–8.
  9. Towner JSRollin PEBausch DGSanchez ACrary SMVincent MRapid diagnosis of Ebola hemorrhagic fever by reverse transcription–PCR in an outbreak setting and assessment of patient viral load as a predictor of outcome. J Virol2004;78:433041DOIPubMed
  10. Bausch DGTowner JSDowell SFKaducu FLukwiya MSanchez AAssessment of the risk of Ebola virus transmission from bodily fluids and fomites. J Infect Dis2007;196(Suppl 2):S1427DOIPubMed
  11. Formenty PLeroy EMEpelboin ALibama FLenzi MSudeck HDetection of Ebola virus in oral fluid specimens during outbreaks of Ebola virus hemorrhagic fever in the Republic of Congo. Clin Infect Dis2006;42:15216DOIPubMed
  12. Grolla AJones SMFernando LStrong JEStröher UMöller PThe use of a mobile laboratory unit in support of patient management and epidemiological surveillance during the 2005 Marburg outbreak in Angola. PLoS Negl Trop Dis2011;5:e1183DOIPubMed
    Suggested citation for this article: Prescott J, Bushmaker T, Fischer R, Miazgowicz K, Judson S, Munster VJ. Postmortem stability of Ebola virus. Emerg Infect Dis. 2015 May [date cited]. http://dx.doi.org/10.3201/eid2105.150041
    DOI: 10.3201/eid2105.150041

    No such thing as porn “addiction,” researchers say

    Review article highlights lack of strong research about addictive nature of viewing sexual images
    Journalists and psychologists are quick to describe someone as being a porn “addict,” yet there’s no strong scientific research that shows such addictions actually exists. Slapping such labels onto the habit of frequently viewing images of a sexual nature only describes it as a form of pathology. These labels ignore the positive benefits it holds. So says David Ley, PhD, a clinical psychologist in practice in Albuquerque, NM, and Executive Director of New Mexico Solutions, a large behavioral health program. Dr. Ley is the author of a review article about the so-called “pornography addiction model,” which is published in Springer’s journal Current Sexual Health Reports.
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    Current Sexual Health Reports
    “Pornography addiction” was not included in the recently revised Diagnostic and Statistical Manual because of a lack of scientific data. Fewer than two in every five research articles (37 percent) about high frequency sexual behavior describe it as being an addiction. Only 27 percent (13 of 49) of articles on the subject contained actual data, while only one related psychophysiological study appeared in 2013. Ley’s review article highlights the poor experimental designs, methodological rigor and lack of model specification of most studies surrounding it.
    The research actually found very little evidence – if any at all – to support some of the purported negative side effects of porn “addiction.” There was no sign that use of pornography is connected to erectile dysfunction, or that it causes any changes to the brains of users. Also, despite great furor over the effects of childhood exposure to pornography, the use of sexually explicit material explains very little of the variance in adolescents' behaviors. These are better explained and predicted by other individual and family variables.
    Instead, Ley and his team believe that the positive benefits attached to viewing such images do not make it problematic de facto. It can improve attitudes towards sexuality, increase the quality of life and variety of sexual behaviors and increase pleasure in long-term relationships. It provides a legal outlet for illegal sexual behaviors or desires, and its consumption or availability has been associated with a decrease in sex offenses, especially child molestation.
    Clinicians should be aware that people reporting “addiction” are likely to be male, have a non-heterosexual orientation, have a high libido, tend towards sensation seeking and have religious values that conflict with their sexual behavior and desires. They may be using visually stimulating images to cope with negative emotional states or decreased life satisfaction.
    “We need better methods to help people who struggle with the high frequency use of visual sexual stimuli, without pathologizing them or their use thereof,” writes Ley, who is critical about the pseudoscientific yet lucrative practices surrounding the treatment of so-called porn addiction. “Rather than helping patients who may struggle to control viewing images of a sexual nature, the ‘porn addiction’ concept instead seems to feed an industry with secondary gain from the acceptance of the idea.”
    Reference:
    Ley, D. et al. (2014). The Emperor Has No Clothes: A Review of the “Pornography Addiction” Model, Current Sexual Health Reports. DOI 10.1007/s11930-014-0016-8.

    Pay an unemployed Professor to write a Research Paper for You

    There is an entire industry to help students cheat to get their degrees by having papers written by unemployed professors. If my students are using it, they don't get caught for plagiarism because the papers are new. The company blames "the academic system" for being corruptible.

    Once upon a time, students wrote essays at university. Now they can hire unemployed profs to do that for them — or at least that's what one Montreal-based online service is offering.
    Long nights of research and writing could be a thing of the past if you have a topic and a credit card
    Unemployedprofessors.com connects essay-dreading students with teachers willing to write papers for a fee.
    The tag line says it all: "So you can play while we make your papers go away."
    The site "unabashedly defends its actions on the grounds that education has already become overly commodified and academia is downsizing the tenure system," Karen Seidman wrotefor Postmedia News.
    Student-run essay mills aren't new, Schubert Laforest, president of the Concordia Student Union, told the National Post, but "it's the first I've heard of professors doing students' work."
    "It just seems to hinder the academic process. The focus should be on acquiring skills, not trying to get an easy A. But I'm sure some students will take advantage of it."
    Plagiarism software is what drives some students to buy custom-written essays.
    Unemployedprofessors.com explains: "The whole reason why you're using this services is so that your lazy ass doesn't itself have to plagiarize. Long answer? We source and cite everything we write on the basis of our long experience of non-plagiarizing. Short answer? No, you're not going to get caught unless you do something stupid like tell everyone that you bought an essay."
    The problem of cheating isn't confined to Montreal or one website. Plagiarism seems to be getting worse.
    As described on the website of turnitin.com, a leading online plagiarism checker: "We live in a digital culture where norms around copying, reuse and sharing are colliding with core principles of academic integrity."
    One professor who works for the service told the National Post that students are told that the purchased essays are not to be used to fulfill an academic requirement.
    According to the terms and conditions on the site, "Although you own the copyright to the work, and it is completely original, we do not recommend making use of the product to fulfill an academic course requirement. As such, in using your essay, you agree to indemnify, defend, and hold harmless the company for any and all unauthorized use made of any materials available from this website, include any essay that you might purchase from us."
    "This removes the ethical dimension on our side as we have no control over what a client does upon paying for and receiving the project," said the anonymous professor.
    "In fact, it places the ethical burden squarely on the shoulders of the student."
    Del Paulhus, a psychology professor at the University of B.C. told the Vancouver Sun that this evolution of plagiarism is hard for professors to catch.
    "Now it just takes a couple clicks and you have the exact paper you want," he said. "In the past if you copied right out of a journal it looked too good, but now you can order a paper that has typos in it."
    In Vancouver, city councillor Kerry Jang is calling for a crackdown on companies selling custom essays to university students following an undercover investigation of "essay mills" by CTV News.
    University professors are also pushing to make these sorts of services illegal.
    "I, like many other faculty members, am outraged by it," Simon Fraser University's Rob Gordon told CTV News. "They're ripping off the system."
    While universities can discipline a student caught cheating, they have no power against the off-campus companies selling the essays.
    Minister of Advanced Education John Yap responded to CTV News in an emailed statement:
    "Post-secondary institutions are responsible for the academic integrity within their institutions."
    If universities can't detect the purchased essays, and services like Unemployedprofessors.com aren't shut down, what will become of a post-secondary education's value?
    Maybe all essays should be written in-class. By hand. No internet allowed.

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