Ebola virus antibody prevalence in dogs and human risk.During the 2001-2002 outbreak in Gabon, we observed that several dogs were highly exposed to Ebola virus Ebola virus (ēbō`lə), a member of a family (Filovirus) of viruses that cause hemorrhagic fevers. The virus, named for the region in Congo (Kinshasa) where it was first identified in 1976, emerged from the rain forest, where it survives in by eating infected dead animals. To examine whether these animals became infected with Ebola virus, we sampled 439 dogs and screened them by Ebola virus-specific immunoglobulin (Ig) G assay, antigen detection, and viral polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is amplification. Seven (8.9%) of 79 samples from the 2 main towns, 15 (15.2%) of 99 samples from Mekambo, and 40 (25.2%) of 159 samples from villages in the Ebola virus-epidemic area had detectable Ebola virus-IgG, compared to only 2 (2%) of 102 samples from France. Among dogs from villages with both infected animal carcasses and human cases, seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided was 31.8%. A significant positive direct association existed between seroprevalence and the distances to the Ebola virus-epidemic area. This study suggests that dogs can be infected by Ebola virus and that the putative infection is asymptomatic. ********** Ebola virus causes fulminant hemorrhagic fever hemorrhagic fever (hĕm'ərăj`ĭk), any of a group of viral diseases characterized by sudden onset, muscle and joint pain, fever, bleeding, and shock from loss of blood. in both humans and nonhuman primates (1,2). The Zaire Ebola virus species (Ebola virus-Z), 1 of the 4 known species of Ebola virus, occurs in central Africa and kills 80% of infected persons within a few days (3,4). Ebola hemorrhagic fever Noun 1. Ebola hemorrhagic fever - a severe and often fatal disease in humans and nonhuman primates (monkeys and chimpanzees) caused by the Ebola virus; characterized by high fever and severe internal bleeding; can be spread from person to person; is largely limited to occurs in rare epidemics, in which the index patient is often infected by an animal source, which indicates that Ebola hemorrhagic fever is a zoonotic disease Noun 1. zoonotic disease - an animal disease that can be transmitted to humans zoonosis animal disease - a disease that typically does not affect human beings (5). During the past 3 years, 5 Ebola outbreaks due to Ebola virus-Z have struck the region of central Africa, including Gabon and Republic of Congo, and caused 334 deaths among the 428 reported human cases (5). In previous studies, we showed that each extended outbreak could be subdivided into several independent epidemic clusters or chains of transmission, which resulted from close contact with an Ebola virus-Z-infected animal carcass. Epidemiologic observations and genetic analyses identified gorilla, chimpanzee chimpanzee, an ape, genus Pan, of the equatorial forests of central and W Africa. The common chimpanzee, Pan troglodytes, lives N of the Congo River. Full-grown animals of this species are up to 5 ft (1. , and duiker duiker (dī`kər, dā`–), name for members of a group of small, light antelopes, found in thick brush and forest over most of Africa. All stand under 25 in. (64 cm) high at the shoulder. carcasses as the main sources of human cases (5). Once the species barrier has been crossed between animals and humans, the disease spreads among humans by direct physical contact. Some human cases in the recent outbreak in the Gabon/Republic of Congo region did not have a documented source of exposure to Ebola hemorrhagic fever. Similarly, 14 (4.9%) of the 284 cases in the 1976 Sudan outbreak (6) and 55 (17.4%) of the 316 cases during the 1995 outbreak in Kikwit (7), Democratic Republic of Congo (DRC DRC Democratic Republic of Congo DRC Down (Stage) Right Center DRC Director(ate) of Reserve Components DRC Disability Rights Commission (United Kingdom) , former Zaire), had no direct physical contact with an infected person or known infected carcass. These observations point to other routes of transmission (e.g., human-human respiratory tract infection Noun 1. respiratory tract infection - any infection of the respiratory tract respiratory infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms through droplets and aerosols) or may suggest that other, unidentified animal sources may be involved in Ebola virus transmission to humans. Ebola hemorrhagic fever outbreaks occurred in villages where people keep domestic animals, including dogs. The dogs are not fed and have to scavenge scav·enge v. scav·enged, scav·eng·ing, scav·eng·es v.tr. 1. To search through for salvageable material: scavenged the garbage cans for food scraps. 2. for their food. They eat small dead animals found near the villages and also internal organs of wild animals WILD ANIMALS. Animals in a state of nature; animals ferae naturae. Vide Animals; Ferae naturae. hunted and slaughtered by villagers. Some dogs are also used for hunting in the dense forested area. Although canine infection by Ebola virus has never been documented, domestic dogs' behavior and diet place them at risk. We examined whether pet dogs could have been infected by Ebola virus and their potential role as primary or secondary sources of human infection. We conducted a large-scale serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. survey to determine the prevalence of Ebola virus infection in pet dogs in an Ebola virus-epidemic area of Gabon. Methods Study Populations We sampled 439 dogs divided into 4 groups (Table 1). The first group comprised 102 dogs living in France (negative controls). The second group comprised 258 dogs sampled in the area of Gabon hit by the 2001-2002 Ebola outbreak. This group was subdivided into 2 clusters, 1 of 159 dogs from villages located between Mekambo and Ekata and between Mekambo and Mazingo (Figure 1, Table 1) and another of 99 dogs from Mekambo city, where human cases were also reported. The third group comprised 50 dogs from Libreville, the capital of Gabon, and 29 dogs from Port Gentil, Gabon's second largest town, located on the Atlantic Coast (Figure 1, Table 1). Although these 2 Gabonese towns are both located >600 km from the Ebola virus-epidemic area, several human cases of Ebola infection, imported from the disease-epidemic area, were observed in Libreville during the 1996-1997 outbreak. Sampling Sampling was conducted in 3 ways. 1) Dogs in Libreville and Port Gentil were sampled in a veterinary clinic. Blood was collected in 5-mL dry Vacutainers (VWR International VWR International is a global leader in the distribution of research laboratory products, with over 1,200,000 items to more than 250,000 customers in North America and Europe. The U.S. division is headquartered in West Chester, Pennsylvania. , Fontenay-sous-bois, France), and serum was prepared by centrifugation Centrifugation A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal . Serum specimens were stored at -20[degrees]C until they were sent to the Centre International de Recherches Medicales de Franceville (CIRMF CIRMF Centre International de Recherches Médicales de Franceville (French; Gabon) ), Gabon, where they were stored at -80[degrees]C until testing. 2) Dogs from the Ebola virus-endemic area were sampled in the villages. An experienced veterinary team was located at Mekambo, where field laboratory facilities were set up; blood samples were collected on a daily basis in the vicinity of the village by using 5-mL dry Vacutainers and medetomidine anesthesia. The tubes were then transported to Mekambo each evening, and serum was decanted from whole blood. Serum samples were kept in liquid nitrogen Noun 1. liquid nitrogen - nitrogen in a liquid state atomic number 7, N, nitrogen - a common nonmetallic element that is normally a colorless odorless tasteless inert diatomic gas; constitutes 78 percent of the atmosphere by volume; a constituent of all living in 1-mL aliquots at Mekambo until they were transported to CIRMF. Serum samples were then stored at -80[degrees]C until serologic testing, antigen detection, and RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic amplification were carried out. 3) Dogs in France were sampled in the Laboratoire des Dosages Hormonaux of the Ecole Nationale Veterinaire de Nantes, France. Dog owners were interviewed on their pets' activities (e.g., participation in hunting) and health history. The focus of the interviews was on potential Ebola virus- exposure events, including human cases that occurred in the village and among dog owners. Laboratory Investigations Ebola virus-specific immunoglobulin (Ig) G was detected by using a standard enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ) method as previously described (8). Briefly, Maxisorp plates (VWR International) were coated with Ebola virus-Z antigens diluted 1 : 1,000 in phosphate-buffered saline (PBS PBS in full Public Broadcasting Service Private, nonprofit U.S. corporation of public television stations. PBS provides its member stations, which are supported by public funds and private contributions rather than by commercials, with educational, cultural, ), overnight at 4[degrees]C. Control plates were coated with uninfected Vero cell Vero cells are lineages of cells used in cell cultures.[1] The Vero lineage was isolated from kidney epithelial cells extracted from African green monkey (Cercopithecus aethiops). culture antigens in the same conditions. Sera diluted 1:400 in 5% nonfat non·fat adj. Lacking fat solids or having the fat content removed. milk in PBS-Tween 20 (0.1%) were added to the wells and incubated overnight at 4[degrees]C. IgG binding was visualized by using a peroxidase-labeled anti-dog IgG (Kirkegaard & Perry Laboratories, Inc., Gaithersburg, MD, USA) and the TMB TMB Tetramethylbenzidine TMB Technical Management Board TMB Twisted Metal: Black (video game) TMB Third Millennium Bible TMB Touch My Body (song) TMB Text Me Back TMB Too Many Birthdays detector system (Dynex Technologies, issy-lesMoulineaux, France). Optical density (OD) was measured at 450 nm with an ELISA plate reader. For each sample we calculated the corrected OD as the OD of the antigen-coated well minus the OD of the corresponding control well. The cut-off value (CO) was calculated as follows: CO = M + 3[sigma], where M is the average of the corrected OD of the 102 negative controls from France, and [sigma] is the standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. . Samples were considered positive when the corrected OD was above the cut-off. Samples were used for antigen detection (9) and for viral polymerase chain reaction (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) amplification (10). Three positive and 3 negative serum specimens were also used for virus isolation (9). Briefly, Maxisorp plates were coated with a cocktail of 7 monoclonal antibodies This is a list of monoclonal antibodies, antibodies which are clones of a single parent cell. When used as medications, the generic names end in -mab (see "Nomenclature of monoclonal antibodies"). against Ebola virus-Z antigens; control plates were coated with normal mouse ascitic as·ci·tes n. pl. ascites An abnormal accumulation of serous fluid in the abdominal cavity. [Middle English aschites, from Late Latin asc fluid produced from the parent myeloma myeloma /my·elo·ma/ (mi?e-lo´mah) a tumor composed of cells of the type normally found in the bone marrow. giant cell myeloma see under tumor (1). cell line. Serum was then added to the wells, followed by hyperimmune hyperimmune /hy·per·im·mune/ (hi?per-i-mun´) possessing very large quantities of specific antibodies in the serum. hyperimmune possessing very large quantities of specific antibodies in the serum. rabbit Ebola polyvalent polyvalent /poly·va·lent/ (-va´lent) multivalent. pol·y·va·lent adj. 1. Acting against or interacting with more than one kind of antigen, antibody, toxin, or microorganism. 2. antiserum antiserum /an·ti·se·rum/ (an´ti-se?rum) a serum containing antibody(ies), obtained from an animal immunized either by injection of antigen or by infection with microorganisms containing antigen. and then peroxidase-conjugated goat antibodies against rabbit IgG. The TMB Microwell peroxidase peroxidase /per·ox·i·dase/ (per-ok´si-das) any of a group of iron-porphyrin enzymes that catalyze the oxidation of some organic substrates in the presence of hydrogen peroxide. per·ox·i·dase n. substrate system was used to measure OD. For the detection of viral mRNA, total RNA was isolated from serum with the QIAmp viral RNA kit (Qiagen, Courtaboeuf, France), and eDNA was synthesized from mRNA as previously described. Two pairs of degenerate primers corresponding to the L-gene of Ebola virus were used for 2 rounds of amplification, which yielded a 298-bp fragment. Statistical Methods Confidence intervals for proportions were calculated by using the Clopper and Pearson method (11). Statistical comparisons between seroprevalence rates seroprevalence rates (sir´ōprev´-  lns),n. according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the sampling area were performed by using the Fisher exact test. The Cochran-Armitage test was used as a trend test for proportions, after checking for the goodness-of-fit of the underlying linear model (12). All tests used a 0.05 significance level. Statistical analyses were performed by using R software (R Development Core Team; 13). Results A total of 439 blood samples from dogs were screened for Ebola virus-specific IgG. Two (2%) of the 102 blood samples from dogs living in France had detectable Ebola virus-reactive IgG (Table 2). Seven of the 79 dogs sampled in Libreville and Port Gentil (8.9% prevalence rate), 15 of the 99 dogs sampled in Mekambo (15.2% prevalence rate), and 40 of the 159 dogs sampled in villages located within the Ebola virus-epidemic area (25.2% prevalence rate) had detectable IgG to Ebola virus antigens (Table 2). [FIGURE 1 OMITTED] During the 2001-2002 Ebola outbreak in Gabon, human cases of Ebola virus infection appeared only in certain villages within the Ebola virus-epidemic area (Figure 1). The prevalence of Ebola virus-reactive IgG among dogs from the villages where humans cases occurred was 27.2%, compared to 22.4% among dogs from villages where no human cases were noted (Table 2). In some cases, hunters had brought back to the village an Ebola virus-infected animal carcass found in the forest. This carcass was the source of human infection in the village, and the disease then spread from human to human, both within the village and to other villages by population movement (Figure 1). Thus, only secondary human cases were observed in some villages, with no identified animal source. The prevalence rate among dogs from villages with both an animal source and human cases was as high as 31.8%, compared to 15.4% among dogs from villages with human cases but no identified animal source (Table 2). The seroprevalence rate was significantly lower in France (2.0%) than in Gabon (Table 2). In particular, it was lower than in the 2 major towns (p = 0.043), in Mekambo (p = 0.001), and in the Ebola virus-epidemic area (p < 0.001). The seroprevalence rate in the major towns (8.9%) was significantly lower than that in the Ebola virus-epidemic area (p = 0.003). Using scores from 1 to 4 for the canine prevalence rates in France, major towns, Mekambo and Ebola virus-epidemic areas, we observed a significant positive trend of linear increase (Cochran-Armitage test: p < 0.0001) (Figure 2A). [FIGURE 2 OMITTED] The seroprevalence rates in dogs increased linearly as the sampling area approached the sites of human cases, as confirmed by the highly significant Cochran-Armitage test for trends in proportions (p < 0.0001), which used a score of 1 for France, 2 for major towns, 3 for Mekambo, 4 for villages from the disease-epidemic area without human cases, and 5 for villages from the Ebola virus-epidemic area with human cases (Figure 2B). The result was confirmed when restricted to the 3 latter areas (p = 0.04). In parallel, the seroprevalence rates in dogs increased linearly as the sampling area approached animal sources, as confirmed by a significant Cochran-Armitage test (p < 0.0001), using a score of 1 for France, 2 for major towns, 3 for Mekambo, 4 for villages where no animal source was observed (with or without human cases), and 5 for villages where an animal source was observed (with human cases) (Figure 2C). Again, the result was confirmed when restricted to the 3 latter areas (p = 0.01). Neither Ebola virus antigens nor nucleotide sequences were detected in any of the positive or negative dog blood samples. We also failed to isolate the virus from 3 positive and 3 negative samples on VeroE6 cells. Discussion We investigated the potential involvement of domestic dogs in the occurrence or dissemination of Ebola virus hemorrhagic fever in humans. Based on a large serologic survey of dogs See See also: Survey in the 2001-2002 Ebola outbreak area in Gabon, we found evidence that dogs can be infected by Ebola virus, a finding that raises important human health issues. The ELISA method was based on the use of Ebola virus-Z antigens. Although cross-reactions can occur with antibodies to other subtypes, the presence of these subtypes in our samples is unlikely because only the Zaire subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. circulates in the study area: all patients and nonhuman primates tested in this part of central Africa were infected by the Zaire subtype alone. The 2 positive dogs in France, an apparently Ebola virus-exempt part of the world, could be attributed to false-positive reactions due to the calculation of the positivity cut-off and the 1:400 serum dilution step used in the tests. We found that 40 of 159 dogs living in the 2001-2002 Ebola virus-epidemic area had detectable Ebola virus-specific IgG, indicating either true infection or simple antigenic stimulation. All the tests were standardized at the 1:400 serum dilution, and most serum specimens had high OD values even at higher dilutions, confirming the specificity of the reactions. These data are consistent with observations we made during the different Ebola outbreaks that occurred in Gabon and the Republic of Congo in recent years. We observed that some dogs ate fresh remains of Ebola virus infected dead animals brought back to the villages, and that others licked vomit from Ebola virus-infected patients. Together, these findings strongly suggest that dogs can be infected by Ebola virus, and that some pet dogs living in affected villages were infected during the 2001-2002 human Ebola virus outbreak. No circulating Ebola antigens or viral DNA sequences (tested by PCR) were detected in either positive or negative serum specimens, and attempts to isolate virus from these samples failed. These findings indicate either old, transient Ebola infection of the tested dogs, or antigenic stimulation. Symptoms did not develop in any of these highly exposed animals during the outbreak, a finding that tends to support antigenic stimulation, asymptomatic, or very mild Ebola virus infection. Wild animals, especially gorillas and chimpanzees, can also be infected by Ebola virus, but the infection is highly lethal and causes huge outbreaks and massive population declines (5,14). Other animals such as guinea pigs (15), goats (16), and horses (17) remain asymptomatic or develop mild symptoms after experimental infection, but Ebola virus infection has never been observed in these species in the wild. Thus, dogs appear to be the first animal species shown to be naturally and asymptomatically infected by Ebola virus. Asymptomatic Ebola infection in humans has also been observed during outbreaks (18) but is very rare. Although dogs can be asymptomatically infected, they may excrete excrete /ex·crete/ (eks-kret´) to throw off or eliminate by a normal discharge, such as waste matter. ex·crete v. To eliminate waste material from the body. infectious viral particles in urine, feces, and saliva for a short period before virus clearance, as observed experimentally in other animals. Given the frequency of contact between humans and domestic dogs, canine Ebola infection must be considered as a potential risk factor for human infection and virus spread. Human infection could occur through licking, biting, or grooming. Asymptomatically infected dogs could be a potential source of human Ebola outbreaks and of virus spread during human outbreaks, which could explain some epidemiologically unrelated human cases. Dogs might also be a source of human Ebola outbreaks, such as the 1976 Yambuku outbreaks in Democratic Republic of Congo (19), the 1995 Kikwit outbreak, some outbreaks that occurred in 1996 and 2004 in Gabon and Republic of Congo (5), and the 1976 (6), 1979 (20), and 2004 (21) outbreaks in Sudan, the Sudan, The officially Republic of the Sudan Country, northeastern Africa. Area: 966,757 sq mi (2,503,890 sq km). Population (2005 est.): 36,233,000. Capitals: Khartoum (executive), Omdurman (legislative). sources of which are still unknown. Together, these findings strongly suggest that dogs should be taken into consideration during the management of human Ebola outbreaks. To confirm the potential human risk of Ebola virus-infected dogs, the mechanisms of viral excretion (i.e. body fluids and virus kinetics of excretion) should be investigated during experimental canine infection. This research would also offer insights into the natural resistance of dogs. The canine seroprevalence rates in Libreville and Port Gentil, the 2 main towns of Gabon, were significantly higher than that observed in France, which suggests antigenic stimulation in these towns where no endemic cases of Ebola infection have been observed. Epidemiologic investigations showed that most seropositive seropositive /se·ro·pos·i·tive/ (-poz´i-tiv) showing positive results on serological examination; showing a high level of antibody. se·ro·pos·i·tive adj. dogs in Libreville and Port Gentil had probably never had contact with an infected source (dead animal or human case-patient), and that they had never visited the Ebola virus-epidemic area, in theory ruling out true infection. They may therefore have come into contact with free viral antigens, transmitted by aerosol or, to a lesser extent, experienced conjunctival con·junc·ti·val adj. Relating to the conjunctiva. conjunctival pertaining to or emanating from conjunctiva. congenital conjunctival membrane exposure to virus-laden droplets of urine, feces, or blood of the unknown natural host. Ebola virus has been shown to be experimentally transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted. trans·mis·si·ble adj. Capable of being conveyed from one person to another. to rhesus monkeys by inhalation (22) and conjunctival exposure (23). Moreover, accidental transmission of Ebola virus to 2 rhesus monkeys that had no direct contact with experimentally infected monkeys was observed in a bio-containment laboratory, which also suggests aerosol, conjunctival, or oral transmission (24). The Ebola virus reservoir species appears to extend throughout central Africa, both in rural and urban areas and might therefore be a small terrestrial mammal or a flying animal (bat or bird). No good candidate species has yet been identified, despite extensive studies (25,26). Epidemiologic observations during the 1976 outbreaks in Democratic Republic of Congo and Sudan identified bats as a potential reservoir (6,20), and Ebola virus nucleotide sequences and Ebola virus-like virus capsids were detected in rodents in the Central African Republic Central African Republic, republic (2005 est. pop. 3,800,000), 240,534 sq mi (622,983 sq km), central Africa. The landlocked nation is bordered by Chad (N), Sudan (E), Congo (Kinshasa) and Congo (Brazzaville) (S), and Cameroon (W). (27). The discovery of Ebola virus-positive pet dogs in undeclared affected areas suggests that these animals live in close contact with the Ebola virus reservoir, and this finding should help to narrow the search. One striking result of this study is the significant increasing gradient of canine seroprevalence from France to the Ebola virus-epidemic area, including from villages with and without human cases in the area. The Cochran-Armitage test for trends in proportions showed that seroprevalence increased linearly from France (2%), to major towns (8.9%), then to Mekambo (15.2%), and then to villages in the Ebola virus-epidemic area (25.2%). This trend is supported by the increasing seroprevalence as the sampling area approached human cases and animal sources (Cochran-Armitage test, p < 0.0001). These findings suggest that canine seroprevalence could reflect contact with the virus and, thus, virus activity in a given area and also the risk for human infection. The virus appears to jump from its natural host to humans only in specific, but unknown, conditions. Seroprevalence rates in dogs might serves as an indicator of Ebola virus in regions in which no animal deaths or human cases have been observed. In conclusion, this study offers the first evidence that dogs might be asymptomatically infected by Ebola virus in the wild. This finding has potential implications for preventing and controlling human outbreaks. The increasing canine seroprevalence gradient from low-risk to at-risk Ebola virus-endemic areas indicates that this seroprevalence might be used as an epidemiologic indicator of virus circulation in regions where no other means of virus detection are available.
Table 1. Results of testing pet dogs for Ebola-specific
immunoglobulin G antibodies by location
Location No. dogs tested No. dogs positive
Mekambo/Ekata
Ekata 38 10
Ilahounene 15 1
Mendemba 3 1
Ntolo 11 3
Mekouma 12 1
Malassa 5 0
Mbeza 13 6
Total 97 22
Mekambo/Mazingo
Mazingo 5 1
Massombo 1 0
Ego poma 4 1
Grand Etoumbi 7 3
Zoula 15 3
Ibea 12 3
Imbong 10 4
Etakangaye 8 3
Total 62 18
Mekambo 99 15
Libreville 50 5
Port Gentil 29 2
France 102 2
Total 439 64
Table 2. Prevalence rates of Ebola-specific immunoglobulin G antibodies
in pet dogs from different areas and villages
Area/village characteristic No. No. positive
France 102 2
Major towns (Libreville and
Port Gentil) 79 7
Mekambo 99 15
Ebola virus-epidemic area (villages) 159 40
Villages with human cases 92 25
Villages without human cases 67 15
Villages with human cases and animal
source 66 21
Villages with human cases, without
animal source 26 4
Seropre- 95% confidence
Area/village characteristic valence * (%) interval (%)
France 2 0.2-6.9
Major towns (Libreville and
Port Gentil) 8.9 3.6-17.4
Mekambo 15.2 8.7-23.8
Ebola virus-epidemic area (villages) 25.2 18.6-32.6
Villages with human cases 27.2 18.4-37.4
Villages without human cases 22.4 13.1-34.2
Villages with human cases and animal
source 31.8 20.9-44.4
Villages with human cases, without
animal source 15.4 4.4-34.9
* Seroprevalence rates were compared by using the Fisher exact
test with a 0.05 confidence level.
Acknowledgments We thank T.G. Ksiazek and P. E. Rollin, Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, Georgia, USA, for providing Ebola-specific reagents. We also thank all those involved in sample collection and case reporting: veterinarians Veterinarians and veterinary surgeons (vets) are medical professionals who operate exclusively on animals. Well-known and notable veterinarians include:
CIRMF is supported by the Government of Gabon, Total-Fina-Elf Gabon, and the Ministere de la Cooperation Frangaise. This work was also supported by a Fonds de Solidaritd Prioritaire grant from the Minist6re des Affaires Etrangeres de la France La France was a single that was released by Dutch popgroup BZN in 1986. It is about a man and woman who met and fell in love while in France. (FSP FSP - File Service Protocol no. 2002005700). References (1.) Peters CJ, Khan AS. Filovirus Filovirus /Fi·lo·vi·rus/ (fi´lo-vi?rus) Marburg and Ebola viruses: a genus of viruses of the family Filoviridae that cause hemorrhagic fevers (Marburg virus disease, Ebola virus disease). diseases. In: Klenk HD, editor. Current topics in microbiology and immunology: filovirus disease. Berlin: Springer-Verlag; 1999. p. 85-95. (2.) Fisher-Hoch SP, Brammer TL, Trappier SG, Hutwagner LC, Farrar BB, Ruo SL et al. Pathogenic potential of filoviruses: role of geographic origin of primate host and virus strain. J Infect Dis. 1992;166:753-63. (3.) Khan AS, Tshioko FK, Heymann DL, Le Guenno B, Nabeth P, Kerstiens DL, et al. The reemergence of Ebola hemorrhagic fever, Democratic Republic of the Congo, 1995. J Infect Dis. 1999;179(Suppl 1):76-86. (4.) Formenty P, Libama F, Epelboin A, Allarangar Y, Leroy EM, Moudzeo H, et al. L'dpiddmie de fievre hemorragique a virus Ebola en Republique du Congo, 2003: une nouvelle strategie? Med Trop. 2003;63:291-5. (5.) Leroy EM, Rouquet P, Formenty P, Souquiere S, Kilbourne A, Froment J-M J-M Jelinski-Moranda (reliability model) , et al. Multiple Ebola virus transmission events and rapid decline of central African Central African may mean:
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Subclasses of IgG from normal and hyperimmune sera of goat. Siberian Biol J. 1993;6:8-13. (17.) Krasnyanskii VP, Mikhailov VV, Borisevich IV, Gradoboev VN, Evseev AA, Pshenichnov VA. Preparation of hyperimmune horse serum to Ebola virus. Vopr Virusol. 1994;2:91-2. (18.) Leroy EM, Baize S, Lu C-Y, McCormick JB, Georges AJ, Georges-Courbot M-C, et al. Human asymptomatic Ebola infection and strong inflammatory response. Lancet. 2000;355:2210-5. (19.) Johnson KM. Ebola haemorrhagic fever in Zaire, 1976. Bull World Health Organ. 1978;56:271-93. (20.) Baron RC, McCormick JB, Zubeir OA. Ebola virus disease in southern Sudan: hospital dissemination and intrafamilial spread. Bull World Health Organ. 1983;61:997-1003. (21.) World Health Organization. Ebola haemorrhagic fever in south Sudan--update. Wkly Epidemiol Rec. 2004;79:253-64. (22.) Johnson ED, Jaax N, White J, Jahrling E Lethal experimental infections of rhesus monkeys by aerosolized Adj. 1. aerosolized - in the form of ultramicroscopic solid or liquid particles dispersed or suspended in air or gas aerosolised gaseous - existing as or having characteristics of a gas; "steam is water is the gaseous state" Ebola virus. Int J Exp Pathol. 1995;76:227-36. (23.) Jaax NK, Davis KJ, Geisbert TJ, Vogel P, Jaax GP, Tropper M, et al. Lethal experimental infection of rhesus monkeys with Ebola-Zaire (Mayinga) virus by the oral and conjunctival route of exposure. Arch Pathol Lab Med. 1996;120:140-55. (24.) Jaax N, Jahrling P, Geisbert T, Geisbert J, Steele K, McKee K, et al. Transmission of Ebola virus (Zaire strain) to uninfected control monkeys in a biocontainment laboratory. Lancet. 1995;346:1669-71. (25.) Leirs H, Mills JN, Krebs JW, Childs JE, Akaibe D, Woolen wool·en also wool·len adj. 1. Made or consisting of wool. 2. Of or relating to the production or marketing of woolen goods. n. Fabric or clothing made from wool. Often used in the plural. N, et al. Search for the Ebola virus reservoir in Kikwit, Democratic Republic of the Congo: reflections on a vertebrate collection. J Infect Dis. 1999;179(Suppl 1):155-63. (26.) Arata AA, Johnson B. Approaches towards studies on potential reservoirs of viral haemorrhagic fever Noun 1. viral haemorrhagic fever - a group of illnesses caused by a viral infection (usually restricted to a specific geographic area); fever and gastrointestinal symptoms are followed by capillary hemorrhage in southern Sudan (1977). In: Pattyn SR, editor. Ebola virus haemorrhagic fever. Amsterdam: Elsevier/Netherland Biomedical bi·o·med·i·cal adj. 1. Of or relating to biomedicine. 2. Of, relating to, or involving biological, medical, and physical sciences. ; 1978. p. 191-202. (27.) Morvan JM, Deubel V, Gounon P, Nakoune E, Barriere P, Murri S, et al. Identification of Ebola virus sequences present as RNA or DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. in organs of terrestrial small mammals of the Central African Republic. Microbes Infect. 1999; 1:1193-201. Lois Allela is veterinary inspector with the Ministry of Environment of Gabon. Her current research focuses on Ebola virus infection in dogs. Address for correspondence: E.M. Leroy, Institut de Recherche re·cher·ché adj. 1. Uncommon; rare. 2. Exquisite; choice. 3. Overrefined; forced. 4. Pretentious; overblown. pour le Developpement, UR178, CIRMF, BP 769 Franceville, Gabon; fax: 241-67-72-95; email: Eric.Leroy@ird.fr Lois Allela, * (1) Olivier Bourry, * (1) Regis Pouillot, ([dagger]) Andre Delicat, * Philippe Yaba, * Brice Kumulungui, * Pierre Rouquet, * Jean-Paul Gonzalez, ([double dagger]) and Eric M. Leroy * ([double dagger]) * Centre International de Recherches Medicales de Franceville, Franceville, Gabon; ([dagger]) Centre Pasteur du Cameroun, Yaounde, Cameroun; and ([double dagger]) Institut de Recherche pour le Developpement, Paris, France (1) Lois Allela and Olivier Bourry contributed equally to this work. |
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