Serologic evidence of Lyssavirus infections among Bats, the Phillipines.Active surveillance for lyssaviruses was conducted among populations of bats in the Philippines. The presence of past or current Lyssavirus infection was determined by use of direct fluorescent antibody Direct fluorescent antibody (DFA or dFA) is a laboratory test that uses antibodies tagged with fluorescent dye to detect the presence of microorganisms. This is the main test used to detect rabies in animals and requires the examination of brain tissue. assays on bat brains and virus neutralization neutralization, chemical reaction, according to the Arrhenius theory of acids and bases, in which a water solution of acid is mixed with a water solution of base to form a salt and water; this reaction is complete only if the resulting solution has neither acidic nor assays on bat sera. Although no bats were found to have active infection with a Lyssavirus, 22 had evidence of neutralizing antibody against the Australian bat lyssavirus
ABLV American Bank of the Lehigh Valley (Allentown, Pennsylvania) ABLV Australian Bat Lyssa Virus ). Seropositivity Seropositivity is the presence of a certain antibody in a blood sample. A patient with seropositivity for a particular antigen or agent is termed seropositive. was statistically associated with one species of bat, Miniopterus schreibersi. Results from the virus neutralization assays are consistent with the presence in the Philippines of a naturally occurring Lyssavirus related to ABLV. ********** During the past decade, bats have been associated with a number of newly recognized zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis agents, including Hendra, Menangle, Nipah, and Ebola viruses and the Australian bat lyssavirus (ABLV) (1-5). ABLV and classic Rabies virus (RABV) are members of the genus Lyssavirus. These viruses are genetically similar and cause indistinguishable clinical syndromes in infected mammals. In the United States, where endemic canine rabies has been eliminated through vaccination and animal control, bat-associated variants of RABV have accounted for 24 (75%) of the 32 cases of human rabies reported since 1990 (6,7). Of the nearly 30,000 laboratory-confirmed cases of animal rabies reported worldwide in 1997, 4% were in bats (8). However, not all countries are included in this survey, and surveillance methods vary between countries included in the compilation. Bat-associated rabies cases in humans are likely underreported in this global surveillance report because not all countries report a history of animal exposure or type the virus variants. In the Philippines, where approximately 350 cases of human rabies are diagnosed clinically each year, attribution of the animal associated with the exposure is based on history (8). Previous surveys for rabies in Philippine bats conducted in the 1950s and 1960s failed to document active rabies infection in the animals examined (9,10). The increasingly recognized role of bats in the global maintenance and transmission of viral infections, the recent discovery of rabies among bats in Australia, and the unknown proportion of rabies cases in Southeast Asia potentially attributable to bats prompted this initiation of active surveillance for lyssaviruses in Philippine bat populations. Methods Collection of Specimens From June 25 through September 11, 1998, bats were non-randomly collected from multiple sites on six different islands in the Philippines (Figure). Sites were chosen on the basis of local reports of known bat colonies or after investigation of likely habitats, such as caves, church belfries, or orchards (11,12). Insectivorous insectivorous eating insects to the extent that they are significant as a contributor to the patient's diet. and small fruit bats were captured during the day in fine-mesh, long-handled butterfly nets and at night in mist nets. Larger fruit bats were also obtained from hunters. Thick leather gloves were worn when captured bats were transferred into individual muslin muslin, general name for plain woven fine white cottons for domestic use. It is believed that muslins were first made at Mosul (now a city of Iraq). They were widely made in India, from where they were first imported to England in the late 17th cent. pouches for transportation. [FIGURE OMITTED] Bats were anesthetized a·nes·the·tize also a·naes·the·tize tr.v. a·nes·the·tized, a·nes·the·tiz·ing, a·nes·the·tiz·es To induce anesthesia in. a·nes by a 0.05- to 0.1-mg intramuscular injection of ketamine hydrochloride and euthanized by intracardiac intracardiac /in·tra·car·di·ac/ (-kahr´de-ak) within the heart. in·tra·car·di·ac adj. Within the heart. intracardiac within the heart. exsanguination exsanguination /ex·san·gui·na·tion/ (ek-sang?gwin-a´shun) extensive loss of blood due to internal or external hemorrhage. exsanguination extensive blood loss due to internal or external hemorrhage. . All blood was transferred from the collecting syringe into serum separator tubes and refrigerated until 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 was decanted into individual screw-topped vials and frozen at -20 [degrees] C. Bats were identified to species by using a key based on gross morphology (13). The brains of all bats were removed surgically and frozen in individual containers. Additional organs (e.g., liver, spleen, and lungs) were also harvested from each bat and stored either in a freezer at -70 [degrees] C or in 20% formalin formalin /for·ma·lin/ (for´mah-lin) formaldehyde solution. for·ma·lin n. An aqueous solution of formaldehyde that is 37 percent by weight. for future studies. Carcasses of representative specimens were stored in formalin for archival purposes. Direct Fluorescent Antibody (DFA DFA - Deterministic Finite-state Automaton. See Finite State Machine. ) Testing of Brains At the Research Institute for Tropical Medicine The Research Institute for Tropical Medicine (RITM) was conceptualized through the Philippine Executive Order (EO) 674, authorizing the Philippine Department of Health to establish a research facility within the country for health advancement and medical research. in Manila, the bat brains were thawed and multiple impressions were prepared for DFA testing (14). Microscope slides were fixed in cold acetone acetone (ăs`ĭtōn), dimethyl ketone (dīmĕth`əl kē`tōn), or 2-propanone (prō`pənōn), CH3COCH3 and allowed to dry. Brain impressions were stained with fluorescein isothiocyanate (FITC FITC fluorescein isothiocyanate; used as a fluorescent label for proteins, especially antibodies. )-conjugated anti-rabies monoclonal antibodies (Fujirebio Diagnostics, Malvern, PA) and examined under a fluorescent microscope for Lyssavirus antigens. This monoclonal antibody preparation reliably detects infection with all known lyssaviruses, including both classic RABV and ABLV (5,15-17). Serologic Testing for Neutralizing Antibodies At the 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. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ), the presence of virus-neutralizing antibodies was determined by a modification of the rapid fluorescent focus inhibition test (RFFIT RFFIT rapid fluorescent focus inhibition test for rabies. ) (18). Two different challenge viruses were used: the routine rabies challenge virus standard (CVS-11) and an isolate of ABLV adapted to cell culture. Viruses and bat serum samples were diluted with Eagle minimum essential medium containing 10% fetal calf serum (EMEM10) and antibiotics to reduce bacterial and fungal contamination as described (18). EMEM10 was also used in the growth of murine murine /mu·rine/ (mur´en) pertaining to, derived from, or characteristic of mice or rats. mu·rine adj. neuroblastoma Neuroblastoma Definition Neuroblastoma is a type of cancer that usually originates either in the tissues of the adrenal gland or in the ganglia of the abdomen or in the ganglia of the nervous system. (MNA MNA Monitored Natural Attenuation MNA Massachusetts Nurses Association MNA Michigan Nonprofit Association MNA Mini-Nutritional Assessment MNA Mission to North America (Presbyterian Church in America outreach) ) cells, which were used to propagate and grow sufficient quantities of each virus, and in the modified RFFIT assays. CVS-11 was obtained from stocks at CDC. The ABLV isolate (Saccolaimus flaviventris [sm4068]; Australian Animal Health laboratory The Australian Animal Health Laboratory (AAHL) in Geelong, Victoria, Australia is a high security laboratory, run by the CSIRO for exotic animal disease diagnosis and research. It opened in 1985 costing $150 million. , Geelong, Australia) was originally obtained from an insectivorous bat in Australia and was amplified by passage in BHK BHK Baby Hamster Kidney BHK Bukhara, Uzbekistan (Airport Code) BHK Bedroom Hall Kitchen (rental properties) BHK Bachelor of Human Kinetics (degree) BHK Brouwer-Heyting-Kolmogorov and MNA cells at CDC. All bat serum samples were thawed and placed in a 56 [degrees] C water bath for 30 minutes to inactivate in·ac·ti·vate v. 1. To render nonfunctional. 2. To make quiescent. in·ac  ti·va complement. Serum samples were
then diluted to 1:10 if possible. Samples with insufficient volume were
screened at a higher dilution. The RFFIT was conducted by using Lab-Tek
8-well glass slides with covers (Nalge Nunc International, Naperville,
IL). Sera were screened for antibody by incubating 100 [micro]L of
diluted serum with 100 [micro]L of ABLV or CVS-11 that had been diluted
to contain approximately 100 infectious units when incubated for 90
minutes at 37 [degrees] C in a C[O.sub.2] incubator. MNA cells
(approximately 75,000 cells/200 [micro]L) were added to each serum-virus
mixture, and the incubation was continued. After 48 hours, culture
medium was removed, and the slides were fixed in acetone, air-dried, and
stained for residual virus with FITC-conjugated anti-rabies monoclonal
antibodies. A sample was defined as positive for neutralizing antibody
if at least a 90% reduction in infectious centers was observed relative
to the positive control. All positive samples were retested at
increasing dilutions to estimate endpoint antibody titers. Standard
human rabies immune globulin rabies immune globulinn. Specific immune globulin from human donors immunized against rabies. (HRIG HRIG Human Rabies Immune Globulin ) diluted to contain 2 IU/mL antibodies was used as a positive serum control for all tests. The titer of HRIG ranged from 1:125 to 1:625 against both ABLV and CVS-11. Results from the serologic testing were used to detect patterns in seropositivity by location or type of bat, by using the Chi-square test. Results Collection of Specimens Of the 821 bats collected, all but three were identified to species (Table 1). The collection resulted in 14 different species of both insectivorous and frugivorous frugivorous fruit-eating. bats representing five of the six families of Chiroptera believed to be present in the Philippines. Fifty-one percent of the bats were female, including 22 that were pregnant and 6 that were suckling suckling In mammals, the drawing of milk into the mouth from the nipple of a mammary gland. In human beings, it is referred to as nursing or breast-feeding. The word also denotes an animal that has not yet been weaned—that is, whose access to milk has not yet been infants. All bats appeared to be healthy except one with an enlarged spleen and three that appeared to have a mange-like condition. Since some bats died during collection and processing, serum could not be collected from all the bats. DFA Testing of Brains Brains from all 821 bats were tested for the presence of RABV antigen by DFA. None of the bats had detectable antigen consistent with an active infection with rabies or a related Lyssavirus. Serologic Testing for Neutralizing Antibodies Of the 821 bats collected, 231 had sufficient volume and quality of serum to be diluted to 1:10 and successfully screened at 1:20, after being combined with the challenge virus (Table 2). An additional 43 specimens were screened at higher dilutions. Remaining samples contained insufficient volumes or could not be tested because of hemolysis hemolysis (hĭmŏl`ĭsĭs), destruction of red blood cells in the bloodstream. Although new red blood cells, or erythrocytes, are continuously created and old ones destroyed, an excessive rate of destruction sometimes occurs. . Of the 231 bat sera tested, 22 (9.5%) were positive for neutralizing antibodies against ABLV. Antibody titration titration (tītrā`shən), gradual addition of an acidic solution to a basic solution or vice versa (see acids and bases); titrations are used to determine the concentration of acids or bases in solution. studies demonstrated decreasing percent neutralization at progressively higher serum dilutions. Of those 22 bat sera, 8 demonstrated no virus neutralization at the next highest dilution tested; 8 demonstrated some neutralization as dilute as 1:40; 3 had some at 1:80; 2 had some at 1:160; and 1 had evidence of some neutralization at a dilution of 1:320. When the strict definition of 90% to be considered positive was used, only two bat sera remained positive at the 1:40 dilution. This dilution is the equivalent of 0.6 IU/mL antibody. Five of those 22 samples were also positive when tested against CVS-11. Only 1 of the 209 bat sera that was negative when tested against ABLV was positive when tested against CVS-11. The 22 bats with neutralizing antibodies against ABLV included six different species collected from four islands (Table 3). No location was significantly associated with bat sera that tested positive. Antibody-positive bats were evenly dispersed throughout the collection period (July 5 through September 5). Only 32% of the antibody-positive bat sera were obtained from females. That proportion was not statistically significant. The only significant association in the analysis was that a single species had a statistically greater proportion of samples testing positive. Thirty-six percent of the 11 Mineopterus schreibersi (Schreiber's long-fingered bat) tested positive (p=0.01). The data analysis was repeated with a less strict case definition of 75% reduction in infectious centers relative to the positive control and including the 43 additional samples that could only be screened at higher dilutions. When these criteria were used, 53 (19%) of 274 bat sera tested were positive. The two samples with the highest positive endpoint titers in the initial analysis remained highest, but now at a 1:80 dilution. Although additional species would have been identified as having neutralizing antibodies, M. schreibersi remained the only species with a statistically significantly greater proportion of serum samples positive for neutralizing antibody. Discussion This study presents evidence of neutralization of ABLV by serum from Philippine bats. This neutralizing activity correlated with the ability to neutralize RABV (CVS-11) and titrated ti·trate tr. & intr.v. ti·trat·ed, ti·trat·ing, ti·trates To determine the concentration of (a solution) by titration or perform the operation of titration. steadily with serial dilutions of the serum. These findings are consistent with the presence of naturally occurring antibodies against a Lyssavirus related to ABLV in the Philippine bat populations studied. Lyssaviruses are classified into groups on the basis of their relative pathogenicity, their binding affinity to specific monoclonal antibodies, and their nucleic acid sequences. There are seven putative genotypes that have been aggregated into two basic groups on the basis of their overall phylogenetic phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. relatedness (19). Phylogroup I includes RABV (genotype 1), Duvenhage virus (DUVV) (genotype 4), European bat lyssavirus (EBLV EBLV European Bat Lyssa Virus ) 1 (genotype 5), EBLV-2 (genotype 6), and ABLV (genotype 7). Phylogroup II includes Lagos bat virus Lagos bat virus is a lyssavirus that causes a rabies-like illness in mammals in southern and central Africa. It was first isolated from a fruit bat (Eidolon helvum) from Lagos Island, Nigeria in 1956. (LBV LBV Lake Buena Vista LBV Late Bottled Vintage (port wine) LBV Legião da Boa Vontade (Brazil) LBV Landesamt für Besoldung und Versorgung (Germany) LBV Load Bearing Vest ) (genotype 2) and Mokola virus (MOKV) (genotype 3). Antibodies to viruses within one phylogroup should cross-neutralize viruses of that same phylogroup. The ability to cross-neutralize is directly proportional to the relative nucleotide and amino acid homogeneity between the two viruses being compared (19). In another study of Nigerian fruit bats, 2 of 50 serum samples had neutralizing antibodies against CVS-11 but failed to neutralize DUVV (20). In the bats in this study, no cases of active Lyssavirus infection were discovered from which nucleotide and amino acid sequences could be determined and subsequently compared with ABLV and CVS-11. More samples neutralized ABLV than CVS-11, suggesting that the Lyssavirus responsible for the induction of antibodies in these bats might be more similar to ABLV than CVS-11, while still being a member of phylogroup I. Repeating the RFFIT assays with a challenge virus from phylogroup II, such as MOKV or LBV, could have tested this hypothesis further. Although it is possible that we might have been able to demonstrate some cross-reactivity, a finding of greater neutralization activity against MOKV (compared with what was found against ABLV) would not be expected since all known phylo-group II viruses have a rather limited geographic distribution in Africa. In addition to the more widespread distribution of phylogroup I lyssaviruses, the small quantities of available bat sera precluded repeated RFFIT testing with an additional challenge virus such as MOKV. The strict case definition used in the interpretation of the RFFIT assays resulted in the identification of 22 positive bat sera. As noted in the results of the second analysis, for which a lower threshold for positivity was used, additional bat sera that had 75% to 89% neutralization also had progressively decreasing neutralization at increasing dilutions, a finding similar to that for the 22 positive samples that met the strict case definition. Thus, we may have slightly underestimated the actual prevalence of anti-Lyssavirus antibody in these bat populations. Reduction in infectious centers by 90% compared with the positive control provided a conservative estimate of the prevalence of anti-Lyssavirus neutralizing antibodies. Previous studies have used a cutoff as low as 50% neutralization for the interpretation of data (21). Although the number of positive bat sera more than doubled when the broader case definition was used, no change in the results of the analysis of patterns of seropositivity by location or type of bat was evident. In addition, independent of the cutoff point used, the peak antibody measurement was approximately 0.6 IU/mL. Most of the other positive specimens had approximately 0.3 IU/mL. Many commercial laboratories report serum samples with >0.5 IU/mL of antibody as a positive test. However, the 0.5 IU/mL value was established as an arbitrary standard by reference laboratories as evidence above background for the detection of the induction of RABV-neutralizing antibodies in humans after receipt of multiple doses of high-potency rabies vaccines (22). No accepted standard for naturally occurring infections among wildlife exists. On the basis of the 9.5% prevalence of neutralizing antibodies, it is not surprising that all brain samples studied showed no evidence of RABV antigen by DFA in these clinically normal bats. Most studies of healthy bats have found a low prevalence of active infection, usually <1% (21). As would be expected, previous surveys of healthy bats in other parts of the world have shown that the prevalence of RABV-neutralizing antibodies is usually considerably higher than the prevalence of active infection, as indicated by positive DFA results for brain tissue. In a study of asymptomatic Mexican free-tailed bats from a single dense cave population in New Mexico, 69% of the bats had neutralizing antibodies, but only 0.5% had active infection demonstrated by DFA (21). A report from the Caribbean described a 40.5% 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 of RABV-neutralizing antibodies among healthy and ill bats, but only 1 bat, which had been submitted as an ill-appearing rabies suspect, had active infection (23). Assuming a ratio of seroprevalence to active infection of approximately 100:1 in healthy populations of bats, based on the seroprevalence of 9.5% demonstrated in this study, one would have needed to test at least 1,052 normal bats to detect one case of active viral infection by DFA. Such further studies should be focused on species of bats such as M. schreibersi and in locations with the highest prevalence of neutralizing antibodies. Ideally, if a large stable colony of such bats could be identified, surveillance among sick and dying bats could be conducted. Such a study would increase the likelihood of obtaining a virus isolate and would minimize the potential adverse impact on the bat populations from oversampling Creating a more accurate digital representation of an analog signal. In order to work with real-world signals in the computer, analog signals are sampled some number of times per second (frequency) and converted into digital code. large numbers of otherwise healthy bats. Similarly, the routine virus variant typing of human and domestic animal rabies cases in the Philippines and throughout Southeast Asia will provide basic epidemiologic information on the prevalence of different RABV isolates and enhance the likelihood of discovery of any new lyssaviruses affecting the populations in these regions.
Table 1. All bats caught on six islands in the Philippines and tested
for Rabies virus antigen by direct fluorescent-antibody assay, June 25
to September 11, 1998
Island of origin
Bat species Luzon Bohol Boracay Mindanao
Saccolaimus saccolaimus 53
Taphozous melanopogan 96
Megaderma spasma 16
Hipposideros diadema 16 1 2
Rhinolophus spp. 6 3
Mineopterus schreibersi 14
Philetor brachypterus 24
Scotophilus kuhlii 105 1
Cynopterus brachyotis 3 12
Eonycteris spelaea 1 6 2
Macroglossus minimus 4 3
Ptenochirus jagori 36 4
Pteropus hypomelanus 27
Rousettus amplexicaudatus 1 112 98 6
Island of origin
Bat species Mindoro Negros
Saccolaimus saccolaimus 54
Taphozous melanopogan
Megaderma spasma
Hipposideros diadema
Rhinolophus spp.
Mineopterus schreibersi
Philetor brachypterus
Scotophilus kuhlii 95
Cynopterus brachyotis 1 4
Eonycteris spelaea 1
Macroglossus minimus 3
Ptenochirus jagori 6
Pteropus hypomelanus
Rousettus amplexicaudatus 1 1
Table 2. All bats caught on five islands in the Philippines and
screened for neutralizing antibodies against Australian bat
lyssavirus at a 1:10 serum dilution
Island of origin
Bat species Luzon Bohol Boracay Mindanao Mindoro
Saccolaimus saccolaimus 23
Taphozous melanopogan 30
Megaderma spasma 4
Hipposideros diadema 4 1 2
Rhinolophus spp. 2
Mineopterus schreibersi 11
Philetor brachypterus 13
Scotophilus kuhlii 62 1
Cynopterus brachyotis 1
Eonycteris spelaea 1
Macroglossus minimus 1 2 1
Ptenochirus jagori 8
Pteropus hypomelanus 14
Rousettus amplexicaudatus 21 28 1
Table 3. All bats caught on four islands in the Philippines positive
for neutralizing antibodies against Australian bat lyssavirus at a
1:10 serum dilution
Island of origin
Bat species Luzon Bohol Boracay Mindanao
Taphozous melanopogan 4
Mineopterus schreibersi 4
Philetor brachypterus 1
Scotophilus kuhlii 4
Pteropus hypomelanus 3
Rousettus amplexicaudatus 4 2
Acknowledgments The authors acknowledge Arvin Diesmos, Amanda Cooper, Carol McLaughlin, Virgilio Santos, Marvin Hernandez, and other members of the Veterinary Research Department at RITM RITM Research Institute for Tropical Medicine RITM Rabbit In The Moon (band) RITM Resident Individual Training Management ; Noel Lee Miranda and his staff at the Ina Research Philippines facility in Batangas for their assistance in collecting and processing specimens; and the staff of the Rabies Section, Viral and Rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. Zoonoses Zoonoses Infections of humans caused by the transmission of disease agents that naturally live in animals. People become infected when they unwittingly intrude into the life cycle of the disease agent and become unnatural hosts. Branch, Centers for Disease Control and Prevention, for their excellent technical expertise. References (1.) Swanepoel R, Leman lem·an n. Archaic 1. A sweetheart; a lover. 2. A mistress. [Middle English leofman, lemman : leof, dear (from Old English PA, Burt FJ, Zacharaides NA, Braack LEO, Ksiazek TG, et al. Experimental inoculation of plants and animals Plants and Animals are a Canadian indie-rock band from Montreal, comprised of guitarist-vocalists Warren Spicer and Nic Basque, and drummer-vocalist Matthew Woodley.[1] They are signed to Secret City Records. with Ebola virus. Emerg Infect Dis 1996;2:321-5. (2.) Halpin K, Young PL, Field HE, Mackenzie JS. Isolation of Hendra virus from pteropid bats: a natural reservoir of Hendra virus. J Gen Virol 2000;81:1927-32. (3.) Philbey AW, Kirkland PD, Ross AD, Davis RJ, Gleeson AB, Love RJ, et al. An apparently new virus (Family Paramyxoviridae) infectious for pigs, humans and fruit bats. Emerg Infect Dis 1998;4:269-71. (4.) Johara MY, Field H, Rashdi AM, Morrissy C, van der Heide B, Rota P, et al. Nipah virus infection in bats (Order Chiroptera) in peninsular Malaysia. Emerg Infect Dis 2001;7:439-41. (5.) Gould AR, Hyatt AD, Lunt R, Kattenbelt JA, Hengstberger S, Blacksell SD. Characterization of a novel lyssavirus isolated from Pteropid bats in Australia. Virus Res 1998;54:165-87. (6.) Krebs JW, Rupprecht CE, Childs JE. Rabies surveillance in the United States during 1999. J Am Vet Med Assoc 2000;217:1799-811. (7.) CDC. Human rabies--California, Georgia, Minnesota, New York, and Wisconsin, 2000. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep 2000;49:1111-5. (8.) World Health Organization. World survey of rabies no. 33 for the year 1997. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : The Organization; 1999. p. 1-29. (9.) Beran GW, Nocete AP, Elvina O, Gregorio SB, Moreno RR, Nakao JC, et al. Epidemiological and control studies on rabies in the Philippines. Southeast Asian J Trop Med Public Health 1972;3:433-45. (10.) Tacal JV, Boado PA. Examination for negri bodies in the brains of a species of Philippine bat (Scotophilus temminckii Horsfield). Acta Medica medica (māˑ·dē·k Philippina 1966;3:103-6. (11.) Utzurrum RCB RCB Robinson College of Business RCB Reinforced Concrete Box RCB Right Cornerback (football) RCB Regional Certifying Body (Australia immigration) RCB Regular Commissions Board (UK) . Conservation status of Philippine fruit bats (Pteropodidae). Silliman Journal 1992;36:27-45. (12.) Ingle in·gle n. 1. An open fire in a fireplace. 2. A fireplace. [Perhaps Scottish Gaelic aingeal, fire, light. NR. The natural history of bats on Mt. Makiling, Luzon Island, Philippines. Silliman Journal 1992;36:1-26. (13.) Ingle NR, Heaney LR. A key to the bats of the Philippine islands. Fieldiana: Zoology 1992;69:1-44. (14.) Smith JS. Monoclonal antibody studies of rabies in insectivorous bats of the United States. Rev Infect Dis 1988;10(Suppl 4):637-43. (15.) Bourhy H, Kissi B, Lafon M, Sacramento D, Tordo N. Antigenic and molecular characterization of bat rabies virus in Europe. J Clin Microbiol 1992;30:2419-26. (16.) Fraser GC, Hooper PT, Lunt RA, Gould AR, Gleeson LJ, Hyatt AD, et al. Encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges caused by a lyssavirus in fruit bats in Australia. Emerg Infect Dis 1996;2:327-30. (17.) Wiktor TJ, Flamand A, Koprowski H. Use of monoclonal antibodies in diagnosis of rabies virus infection and differentiation of rabies and rabiesrelated viruses. J Virol Methods 1980;1:33-46. (18.) Smith JS, Yager PA, Baer GM. A rapid fluorescent focus inhibition test (RFFIT) for determining rabies virus-neutralizing antibody. In: Meslin FX, Kaplan MM, Koprowski, editors. Laboratory techniques in rabies. 4th ed. Geneva: World Health Organization; 1996. p. 181-92. (19.) Badrane H, Bahloul C, Perrin P, Tordo N. Evidence of two Lyssavirus phylogroups with distinct pathogenicity and immunogenicity immunogenicity /im·mu·no·ge·nic·i·ty/ (-je-nis´it-e) the property enabling a substance to provoke an immune response, or the degree to which a substance possesses this property. . J Virol 2001;75:3268-76. (20.) Aghomo HO, Ako-Nai AK, Oduye OO, Tomori O, Rupprecht CE. Detection of rabies virus antibodies in fruit bats (Eidolon ei·do·lon n. pl. ei·do·lons or ei·do·la 1. A phantom; an apparition. 2. An image of an ideal. [Greek eid helvum) from Nigeria. J Wildl Dis 1990;26:258-61. (21.) Steece R, Altenbach JS. Prevalence of rabies specific antibodies in the Mexican free-tailed bat (Tadarida braziliensis mexicana) at Lava Cave, New Mexico. J Wildl Dis 1989;25:490-6. (22.) World Health Organization. WHO Expert Committee Report on Rabies, 7th report. Geneva: The Organization; 1984. p. 709. (23.) Price JL, Everard COR. Rabies virus and antibody in bats in Grenada and Trinidad. J Wildl Dis 1977;13:131-4. Paul M. Arguin, * Kristy Murray-Lillibridge, * Mary E.G. Miranda, [dagger] Jean S. Smith, * Alan B. Calaor, ([dagger]) and Charles E. Rupprecht * * Centers for Disease Control and Prevention, Atlanta, Georgia, USA and ([dagger]) Research Institute for Tropical Medicine, the Philippines Dr. Arguin is a medical epidemiologist in the International Activity of the Division of Tuberculosis Elimination, National Center for HIV, STD, and TB Prevention The National Center for HIV, STD, and TB Prevention (NCHSTP) is a part of the Centers for Disease Control and Prevention and is responsible for public health surveillance, prevention research, and programs to prevent and control human immunodeficiency virus (HIV) infection and , Centers for Disease Control and Prevention (CDC), Atlanta, Georgia. This work was conducted while he was an Epidemic Intelligence Service The Epidemic Intelligence Service is a program of the United States' Centers for Disease Control and Prevention. Established in 1951 due to biological warfare concerns arising from the Korean War, it has become a hands-on two-year postgraduate training program in epidemiology, with Officer in the Viral and Rickettsial Zoonoses Branch, Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, CDC. Address for correspondance: Paul Arguin, Centers for Disease Control and Prevention, 1600 Clifton Road, MS E10; Atlanta, GA 30333 USA; fax: 404-639-8961; e-mail: pma0@cdc.gov |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion