Behavioral, physiology, and habitat influences on the dynamics of Puumala virus infection in bank voles (Clethrionomys glareolus).Populations of bank voles (Clethrionomys glareolus) were monitored during a 4-year study in southern Belgium to assess the influence of agonistic agonistic /ag·o·nis·tic/ (ag?o-nis´tik) pertaining to a struggle or competition; as an agonistic muscle, counteracted by an antagonistic muscle. behavior, reproductive status, mobility, and distribution of the rodents on the dynamics of Puumala virus Puumala virus is a species of hantavirus, and causes nephropathia epidemica. It is common in northern Europe and Russia. The bank vole acts as a reservoir for the virus, and nephropathia epidemica therefore peaks at the same time the population of these voles, typically (abbreviation abbreviation, in writing, arbitrary shortening of a word, usually by cutting off letters from the end, as in U.S. and Gen. (General). Contraction serves the same purpose but is understood strictly to be the shortening of a word by cutting out letters in the middle, : PUUV; genus: Hantavirus hantavirus, any of a genus (Hantavirus) of single-stranded RNA viruses that are carried by rodents and transmitted to humans when they inhale vapors from contaminated rodent urine, saliva, or feces. There are many strains of hantavirus. ) infection. Concordance concordance /con·cor·dance/ (-kord´ins) in genetics, the occurrence of a given trait in both members of a twin pair.concor´dant con·cor·dance n. was high between data from serologic testing and results of viral 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 detection. Wounds resulting from biting or scratching were observed mainly in adult rodents. Hantavirus infection in adults was associated with wounds in the fall, i.e., at the end of the breeding season Breeding season is the most suitable season usually with favorable conditions and abundant food and water when wild animals and birds (wildlife) have naturally evolved to breed to achieve the best reproductive success. , but not in spring. In addition, sexually active animals were significantly more often wounded and positive for infection. Hantavirus infection was associated with higher mobility in juvenile and subadult males. Seroconversions observed 6 months apart also occurred more frequently in animals that had moved longer distances from their original capture point. During nonepidemic years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time distribution of infection was patchy, and positive foci were mainly located in dense ground vegetation. ********** Hantaviruses (family Bunyaviridae) are rodent-borne zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis agents responsible for human diseases called hemorrhagic fever with renal syndrome hemorrhagic fever with renal syndrome n. See epidemic hemorrhagic fever. (HFRS HFRS Hemorrhagic Fever With Renal Syndrome HFRS Hampshire Fire and Rescue Service (UK) HFRS Humberside Fire and Rescue Service (UK) HFRS High-Float, Rapid-Setting (emulsion) ) in Europe and Asia and hantavirus pulmonary syndrome hantavirus pulmonary syndrome An often fatal RTI caused by a hantavirus; the first cluster occurred in the Four Corners region of Southwestern US Epidemiology Mean age 32, 61% ♀, 72% Native American Case definition Unexplained bilateral interstitial (HPS See Seer*HPS. ) in the Americas (1,2). Viral transmission occurs through inhalation of aerosols from the urine, saliva, or feces of infected rodents and possibly through biting (3-5). Hantavirus infection persists in reservoir species apparently without causing clinical signs (6). In experimentally infected rodents, the virus is distributed in different organs (including lungs, kidneys, intestines, and salivary glands salivary glands (săl`əvâr'ē), in humans, three pairs of glands that secrete the alkaline digestive fluid, saliva, into the mouth. ) and elicits the production of antibodies that may be detected lifelong, while the viremia viremia /vi·re·mia/ (vi-re´me-ah) the presence of viruses in the blood. vi·re·mi·a n. The presence of viruses in the bloodstream. is generally transient (4,7,8). In the wild, adult rodents are generally more often infected than younger animals. The age-dependent prevalence may result from protection of newborns by maternal antibodies and from higher risk of infection for sexually mature rodents through fighting, mating, or communal nesting (9-12). In Europe, Puumala virus (PUUV), which causes a mild form of HFRS in humans, is carried by bank voles (Clethrionomys glareolus) (13). No data are available on the dynamics of PUUV infection in bank vole populations 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. behavioral patterns. Most seroconversions recorded in a capture-mark-recapture (CMR CMR Crude mortality rate, see there ) study of PUUV transmission occurred during the breeding season and in sexually mature voles, with a prevalence bias in favor of mature males (10). Aggressive encounters in adults and the occupation of exclusive territories by breeding females are characteristic of the breeding season in bank voles (14-16). We studied the influence of aggressive behavior, reproductive status, and mobility of bank voles on the prevalence of PUUV infection. Along with behavioral and physiologic factors, we studied the influence of habitat on bank vole distribution. Two HFRS outbreaks were reported in Belgium in 1996 (224 cases) and in 1999 (124 cases) (17,18). Our survey was conducted from 1996 to 1999 in southern Belgium, where most patients had been reported during the epidemic years. In our trapping sites, rodent population densities were the highest in 1996 and 1999, as was the prevalence of PUUV infection, with 41 (19.2%) of 213 and 259 (39.3%) of 659, respectively, of bank voles positive (19; S. Escutenaire, unpub. data). Materials and Methods Study areas From 1996 through 1999, trapping was conducted twice a year (October-November and April-May) at 21 sites distributed in five localities of southern Belgium. All sites were located in broad-leaved or mixed pine and broad-leaved forests. Four of the 21 trapping sites, at Thuin, Montbliart, Momignies, and Couvin, were selected for a CMR survey (19). Each CMR site contained mapped areas with dense or low ground vegetation. The dense ground vegetation included thickets of brambles (Rubus sp.), shrubs (including Corylus avellana, Sambucus racemosa, Prunus Prunus a genus of trees in the family Rosaceae. The seeds of these trees contain cyanogenetic glycosides which are potentially poisonous. The fruit pulp appears to quite safe. The glycosides are amygdalin, prunasin, prulaurasin. spinosa, Cytisus Cytisus genus of the Fabaceae legume family; contain the toxic alkaloid cytisine which causes excitement, incoordination, convulsions and death due to asphyxia. Includes C. scoparius, C. multiflorus, C. proliferus. Called also brooms. scoparius, Crataegus monogyna, Salix caprea, and Lonicera periclymenun) and dense populations of plants such as Pteridium aquilinum and Epilobium angustifolium. The low ground vegetation comprised herbs (Carex pilulifera, Anthoxanthum odoratum Anthoxanthum odoratum a temperate zone grass which contains coumarin. Called also sweet vernal grass. Moldy hay made from the grass is likely to cause dicoumarol poisoning. , Luzula pilosa, Dryopteris carthusiana, Teucrium scorodonia, Scrophularia nodosa Scrophularia nodosa, n See figwort. , and Silene dioica) or sparse brambles located under dense spruce (Picea abies) or oak (Quercus robur Quercus robur, n See oak. , Q. petraea) foliage. Sampling Procedure On each CMR site, we constructed a 10 X 10 grid of 100 live traps (Sherman Live Trap Co., Tallahassee, FL; Tomahawk tomahawk [from an Algonquian dialect of Virginia], hatchet generally used by Native North Americans as a hand weapon and as a missile. The earliest tomahawks were made of stone, with one edge or two edges sharpened (sometimes the stone was globe shaped). Live Trap Co., Tomahawk, WI) spaced at 10-meter intervals. Traps were set for four consecutive nights. Rodents 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 with isoflurane (Forene, S.A. Abbott, Louvain-La-Neuve, Belgium), individually marked by toe-clipping, and released at their original place of capture after a blood sample was collected from the retroorbital sinus. Organs (lungs, liver, kidneys, and spleen) were also collected from any animals found dead in traps. In spring 1999, 120 traps were added to expand the CMR grids, as described (19). On the 17 trapping sites where CMR was not done, 23 to 30 live traps were placed along transects at 5-m intervals for two to four consecutive nights. The trapped animals were humanely killed, and their blood and organs were collected. Data Collection All rodents were examined for sex and weight. Pregnant and lactating lac·tate 1 intr.v. lac·tat·ed, lac·tat·ing, lac·tates To secrete or produce milk. [Latin lact females and males with testicles Testicles Also called testes or gonads, they are part of the male reproductive system, and are located beneath the penis in the scrotum. Mentioned in: Testicular Cancer, Testicular Surgery, Vasectomy in scrotal scrotal /scro·tal/ (skro´t'l) pertaining to the scrotum. scrotal pertaining to scrotum. scrotal abscess position were considered sexually active. Weight limits to distinguish adult, subadult, and juvenile categories were inferred from the analysis of prevalence of infection and reproductive status, according to body mass of rodents. Mass classes, which differed over time (19), were <16 g (juveniles), 16-18 g (subadults), and >18 g (adults) in fall 1996; in spring 1997 and in 1999, and <13 g (juveniles), 13-15 g (subadults), and >15 g (adults) in fall 1997 and in 1998. From spring 1997 on, we recorded the presence of wounds associated with a bite or a scratch on the head (ear perforation per·fo·ra·tion n. 1. The act of perforating or the state of being perforated. 2. An abnormal opening in a hollow organ or viscus, as one made by rupture or injury. Perforation A hole. or muzzle injuries) of bank voles. 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. Screening and Viral RNA Detection Sera of rodents trapped from fall 1996 to fall 1998 were screened by an immunoglobulin (Ig) G 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. ), with PUUV CG18-20, Hantaan virus (HTNV) 76-118, and Dobrava-Belgrade virus (DOBV)--infected Vero E6 cell lysates as viral antigens (19). Sera collected in 1999 were screened by using a PUUV IgG ELISA IgG ELISA, n.pr a diagnostic test for identifying reactive substances that provoke delayed hypersensitivity of the immune system. A solid-phase immunoassay that uses enzymes to test for IgG subclass reactions. kit (Progen Biotechnik, Heidelberg, Germany) (19). Viral RNA was detected in ground-up lungs by means of reverse transcription reverse transcription n. The process by which DNA is synthesized from an RNA template. (RT) 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 (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) test (19). Two nested PCRs with small (S)- or medium (M)-segment oligonucleotides were done to amplify the cDNA. The expected size of the amplified fragments was 205 base pairs (bp) (nucleotide [nt] 1033-1237) and 310 bp (nt 2463-2772) for the S and M genomic segments, respectively. Data Analysis The total number of rodents marked and released during a trapping session was used as an indicator of population size on each CMR site. Capture points of all rodents trapped in the grids were mapped. According to the distribution, we determined the pairs of adult voles with overlapping home ranges. Home range overlap was considered when rodents were captured at the same trap station or when the areas enclosed by the capture points overlapped (20,21). Distances between trapping points of recaptured voles were measured to estimate rodent movements. Statistical analysis of data was done by chi-square test chi-square test: see statistics. , Pearson correlation, and Student's t test. Pairs of adult rodents with overlapping home ranges were analyzed according to sex and serologic or PCR status. Data for each criteria were processed as binomial distributions. Results Serologic and RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. Data IgG antibodies against PUUV were detected in 318 (26.3%) of 1210 bank vole sera collected from fall 1996 through fall 1999. PUUV genomic fragments were amplified in 38 (13.7%)4)f 277 lung samples. Of 179 bank voles tested both by ELISA and RT-nested PCR, 169 (94.4%) had concordant results. Viral RNA was detected in the lungs of 19 (73.1%) of 26 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. animals and in three seronegative seronegative /se·ro·neg·a·tive/ (-neg´ah-tiv) showing negative results on serological examination; showing a lack of antibody. se·ro·neg·a·tive adj. ones. As serum and tissues were not available for all rodents and as the concordance between results of serologic testing and PCR was high, data from both tests were pooled for further analysis. Rodents positive by ELISA or PCR or both were considered positive for PUUV infection. Frequency of Wounds Trapping data from spring 1997 through fall 1999 showed that the proportion of wounded bank voles was significantly (chi square chi square (kī), n a nonparametric statistic used with discrete data in the form of frequency count (nominal data) or percentages or proportions that can be reduced to frequencies. 4.73, p=0.03) higher in autumn (150 [25.3%] of 593) than in spring (99 [19.8%] of 501). Adults were significantly (p<0.01) more often injured than juveniles and subadults in 1998 and 1999 (Table 1). The proportion of injured subadults (42 [18.5%] of 227) was also significantly (chi square 12.63; p<0.01) higher than that of wounded juveniles (20 [7.7%] of 259) in 1998 and 1999. Although no difference was observed between either sex in 1997 and 1998, the proportion of wounded animals during the 1999 epidemic year was significantly (p=0.03) higher in females than in males (Table 1). Association between Wounds and Prevalence of Infection When the fall prevalence rates were compared within mass classes, injured adults were significantly (p<0.01) more often positive than nonwounded ones, although no difference in prevalence was observed in the spring (Table 2). The prevalence in 1999 was significantly (chi square 12.14; p<0.01) higher in subadults (61 [31.4%] of 194) than in juveniles [greater than or equal to]13 g (25 [15.5%] of 161). Subadults were also more often wounded. Despite the difference in frequency of wounds between males and females in 1999, the prevalence of infection in adult females (79 [62.7%] of 126) was not higher than in adult males (71 [67.6%] of 105). During the fall of the nonepidemic years (1997 and 1998), the proportion of positive adult males (18 [14.5%] of 124) was significantly higher (chi square 4.40; p=0.04) than that of adult females (6 [5.9%] of 102) although no significant difference in wound frequency was observed between either sex. Influence of the Reproductive Status of Adults Data from spring 1997 through spring 1999 showed a correlation (r=0.97; p<0.01) between the number wounded and the number of sexually active adult males (Figure 1). The prevalence of infection was significantly higher (chi square 4.31; p=0.04) in sexually active males (10 [24.4%] of 41) than in other adult males (8 [10.1%] of 79) in fall but not in spring. The analysis of wounded animals also showed that in fall, sexually active males still tended to be more often positive (8 [29.6%] of 27) than the other males (1 [7.7%] of 13). [FIGURE 1 OMITTED] Pregnant and lactating voles were significantly (chi square 5.47; p=0.02) more often wounded (81 [43.1%] of 188) than other adult females (18 [26.9%] of 67). The prevalence of infection was also significantly (chi square 4.77; p=0.03) higher in breeding females (72 [38.7%] of 186) than in non-breeding ones (16 [23.9%] of 67). Wounded animals showed no statistically significant difference in prevalence between sexually active (28 [34.6%] of 81) versus sexually inactive adult females (8 [44.4%] of 18). Recapture of Rodents Fifty-three bank voles were recaptured on the grids during subsequent trapping periods. For all but one animal, the recapture occurred 6 months after the first trapping. Twelve (22.6%) rodents were found positive during both capture sessions, and two (3.8%) 8-g juveniles were seropositive when first trapped and seronegative 6 months later. Twenty-two (41.5%) rodents were negative both times, and 17 (32.1%) seroconverted between the first and the second trapping. Of the 17 rodents that seroconverted, nine were juveniles or subadults at first capture and eight were adults. The proportion of animals that acquired wounds between the spring and the fall tended to be higher in rodents that seroconverted (4 [44.4%] of 9) than in the ones that remained negative (3 [25.0%] of 12), although the difference was not statistically significant (p=0.35). Movement within CMR Sites Of the rodents caught more than once during the 4-day sessions, 83 (27.5%) of 302 were trapped at one position only. Adult males were the most mobile, with a mean distance between capture points of 20 m (Figure 2). The distances covered by the positive and the negative bank voles did not differ significantly (Figure 2). However, juvenile or subadult ([greater than or equal to] 13 g) males that had moved distances of [greater than or equal to] 20 m were significantly (chi square 3.86; p=0.05) more often positive than the less mobile ones with prevalence rates of 43.8% (7/16) and 19.6% (11/56), respectively. Mean distance covered was negatively correlated with the population density in adults (correlation coefficient Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: [r] 0.84; p<0.01) and in juveniles and subadults (r 0.93; p<0.01). The rodents were the least mobile during the 1999 epidemic year. [FIGURE 2 OMITTED] Males that seroconverted between two trapping periods had moved a significantly (Student t value 3.16; p=0.01) longer distance from their original capture point (mean distance 70 m) than males that remained negative (mean distance 29 m). Furthermore, the proportion of males and females that were captured at distances [greater than or equal to] 60 m from the original trapping point was significantly (chi square 6.95; p<0.01) higher in the group that seroconverted (9 [52.9%] of 17) than in the group that remained negative (3 [13.6%] of 22). Distribution in the CMR Sites The proportion of captures in the area with dense ground vegetation (Figure 3) was 83.0% (318/383) at Thuin, 87.8% (316/360) at Montbliart, 95.5% (340/356) at Momignies, and 90.8% (118/130) at Couvin. At all sites, the proportion of captures was significantly (p<0.01) higher in dense ground vegetation than in the other part of the grid. Comparison of prevalence of infection between both types of vegetation did not show significantly higher rates in dense ground cover (Table 3). During the nonepidemic years (1997 and 1998), however, positive animals were detected only twice in low ground cover of Thuin but were trapped seven times in dense ground vegetation of Thuin, Montbliart, and Momignies (Table 3, Figure 3). [FIGURE 3 OMITTED] Among adult rodents that had overlapping home ranges in the CMR sites, there were significantly more male pairs (65 of 173) and fewer female pairs (26 of 173) than expected by chance (binomial binomial (bī'nō`mēəl), polynomial expression (see polynomial) containing two terms, for example, x+y. The binomial theorem, or binomial formula, gives the expansion of the nth power of a binomial (x+ probabilities<0.01; proportion of males 52.1%). Statistical evidence of association was found between the home range overlap and the serologic and PCR status for PUUV infection. The number of pairs including two positive animals (24/173) was higher and the number of pairs composed of a positive and a negative animal (41/173) was lower than expected by chance (binomial probabilities<0.01; prevalence of infection 22.2%). Discussion A widespread distribution of hantavirus infection has commonly been reported in rodent hosts during HFRS and HPS epidemics (19,22,23). Transmission of the virus is higher after sudden increases in rodent population density assumed to be related to favorable ecologic conditions (profusion of food or mild weather) (24,25). In some field studies; the prevalence of infection in rodents during non epidemic periods did not appear to be immediately related to population density (19,26-29). Social behaviors and habitat features have been proposed as additional factors influencing the dynamics of infection in the wild (29-32). In rats (Rattus norvegicus) and deer mice deer mice Peromyscus maniculatus Public health The murine vector for Hantavirus. See Hantavirus. (Peromyscus maniculatus), which are the hosts of Seoul virus Seoul virus is a species of hantavirus that can cause a form of hemorrhagic fever. (SEOV) and Sin Nombre virus The Sin Nombre virus (literally "unnamed virus" in Spanish) (SNV) is the prototypical etiologic agent of hantavirus cardiopulmonary syndrome (HCPS). It was first isolated from rodents collected near the home of one of the initial patients with hantavirus pulmonary syndrome (SNV SNV Synovus Financial Corp. (stock symbol) SNV Schweizerische Normenvereinigung (Swiss standards body) SNV Stichting Nederlandse Vrijwilligers (Netherlands Development Organization) ), respectively, agonistic encounters could play a role in viral transmission, as suggested by the higher prevalence of infection in wounded adults (9,32-35). In our study, wounds resulting from biting or scratching were mainly observed in sexually mature bank voles. Wounded adults were more likely than nonwounded ones to be positive for infection in fall (i.e., at the end of the breeding season) but not in spring. Aggressive encounters would therefore play an important role in PUUV transmission during the breeding season, while behaviors such as communal nesting or mutual grooming would be determinant factors in the dynamics of infection during the winter. Aggressive behaviors begin at the onset of sexual maturity and are probably testosterone dependent in males (14). The proportion of injured animals and the prevalence of infection were higher in adult breeding males and breeding females than in other adults. These observations underline the close relationship between aggressiveness and breeding activities, which could be associated risk factors for hantavirus infection. In contrast with results from previous studies of wild rats and deer mice (9,32,33), adult males were not wounded more often than adult females. However, the prevalence of infection was significantly higher in adult males than in adult females during the fall of the nonepidemic years (1997 and 1998). Sex-related physiologic, immunologic, or behavioral characteristics might therefore be additional factors involved in the transmission of infection. In experimentally infected rats, males were more likely than females to shed SEOV in saliva and through multiple routes (urine, feces, and saliva) (36). They were also found to shed virus in saliva and feces longer than did females (37). Although no similar studies have been performed in bank voles, the observations of SEOV in rats could indicate that fighting results in more efficient viral transmission in males than in females, who generally direct their aggression toward female intruders (14). In addition, males frequently spread small quantities of urine and feces to mark their territory and to indicate their social status during the breeding season (38). Thus, olfactory olfactory /ol·fac·to·ry/ (ol-fak´ter-e) pertaining to the sense of smell. ol·fac·to·ry adj. Of, relating to, or contributing to the sense of smell. exploration of conspecific con·spe·cif·ic adj. Of or belonging to the same species. n. An organism belonging to the same species as another. Noun 1. shelters and home ranges might also expose males to a higher risk of infection than females. Movements and distribution of bank voles are also factors involved in the dynamics of PUUV infection. The association of hantavirus infection with longer distances traveled in juvenile and subadult males and in animals captured 6 months apart underlines the importance of mobility in viral transmission. The difference of prevalence between either sex in fall 1997 and 1998 may also be linked to the higher mobility of adult males compared with adult females. Our observations corroborate To support or enhance the believability of a fact or assertion by the presentation of additional information that confirms the truthfulness of the item. The testimony of a witness is corroborated if subsequent evidence, such as a coroner's report or the testimony of other results from a previous study of deer mice in which adult males living in patchy vegetative vegetative /veg·e·ta·tive/ (vej?e-ta?tiv) 1. of, pertaining to, or characteristic of plants. 2. concerned with growth and nutrition, as opposed to reproduction. 3. habitats were more mobile and also more often infected than adult males in dense shrub habitats (32). However, our data suggest that the mobility of bank voles was the lowest during the epidemic years. The high prevalence of infection during these years may have resulted from the high population densities, which allowed frequent encounters between rodents. Home range overlap among positive adult voles was more frequent than expected by chance. This observation could reflect a focal distribution of infected animals or may indicate that viral transmission occurs more readily between animals sharing parts of their home ranges. Direct and repeated contacts with infected conspecifics or contacts with recently shed infectious urine or feces could represent risk factors for closest neighbors within a wild breeding colony. The frequent overlap of home ranges recorded in adult males may therefore be one of the factors increasing the risk of infection in males when compared with females. In our four CMR grids, the type of vegetation influenced the distribution of the rodents. During nonepidemic years, positive animals were more frequently trapped in dense ground vegetation where brambles were abundant. If trapping success indicates preferred habitat, then areas with dense ground cover could constitute foci for bank voles, allowing PUUV to persist during the low prevalence periods. A discontinuous discontinuous /dis·con·tin·u·ous/ (dis?kon-tin´u-us) 1. interrupted; intermittent; marked by breaks. 2. discrete; separate. 3. lacking logical order or coherence. distribution of the rodents could limit viral transmission, as suggested by the absence or low number of positive animals in the isolated groups from the low ground cover in Thuin (Figure 3). An uneven distribution of positive rodents related to the vegetation cover has been observed in Peromyscus species (28,32,33,39,40) with more restricted and well-defined focal ranges during periods of low population densities (31). A correlation was also found between prevalence of SNV infection and habitat characteristics; negative sites were associated with low and homogeneous vegetation cover (29). We have suggested that a threshold in population density may be a determinant factor for the persistence of PUUV infection at a site (19). In this study, behavioral and physiologic factors, such as aggressiveness, mobility and reproductive status of bank voles, were shown to influence the prevalence of PUUV infection. The habitat determines the distribution of the rodents and therefore also constitutes a crucial element influencing the hantavirus enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. cycle.
Table 1. Relationship between frequency of wounds and the age and sex
of bank voles
J+S (a) % A % wounded
wounded (total (total no.
Trapping season no. of animals) of animals) p value
Spring 1997 7.7 (13) (b) 3.4 (29)
Fall 1997 3.1 (65) 9.7 (103)
Total 1997 3.8 (78) 8.3 (132)
Spring 1998 0.0 (2) 35.6 (45)
Fall 1998 14.3 (56) 58.5 (123) p<0.01
Total 1998 13.8 (58) 52.4 (168) p<0.01
Spring 1999 6.7 (223) 34.9 (189) p<0.01
Fall 1999 19.0 (205) 46.3 (41) p<0.01;
[chi square]=14.15
Total 1999 12.6 (428) 37.0 (230) P<0.01
F % wounded
M % wounded (no. (no. of
Trapping season of males) females) p value
Spring 1997 8.3 (24) 0.0 (18)
Fall 1997 7.8 (116) 5.8 (52)
Total 1997 7.9 (140) 4.3 (70)
Spring 1998 33.3 (27) 35.0 (20)
Fall 1998 46.7 (75) 43.3 (104)
Total 1998 43.1 (102) 41.9 (124)
Spring 1999 16.2 (222) 23.7 (190)
Fall 1999 20.8 (125) 26.4 (121)
Total 1999 17.9 (347) 24.8 (311) p=0.03;
[chi square]=4.67
(a) J+S, juveniles and subadults; A, adults; M, males; F, females.
Table 2. Prevalence of Puumala virus infection in adult bank voles, by
presence of wounds
Wounded Not wounded
% positive (no. % positive (no.
Trapping season tested) tested) p value
Spring 1997 0.0 (1) 21.4 (28)
Fall 1997 20.0 (10) 8.6 (93)
Spring 1998 6.3 (16) 6.9 (29)
Fall 1998 15.3 (72) 5.9 (51)
Spring 1999 68.2 (66) 68.3 (123)
Fall 1999 68.4 (19) 36.4 (22) p=0.04;
[chi square]
=4.19
Spring (1997-1999) 55.4 (83) 51.1 (180)
Fall (1997-1999) 25.7 (101) 11.4 (166) p<0.01;
[chi square]
=9.16
Table 3. Prevalence of Puumala virus infection by location and type of
ground vegetation
1996 1997
F (a) % positive S % positive F % positive
Trapping site (no. tested) (no. tested) (no. tested)
Dense cover
Thuin 21.2 (66) 20.0 (10) 4.3 (23)
Montbliart 7.7 (26) 40.0 (5) 16.7 (30)
Momignies 17.9 (28) 0.0 (0) 0.0 (31)
Couvin __ (b) 0.0 (1) 0.0 (19)
Low cover
Thuin 40.0 (5) 33.3 (3) 10.0 (10)
Montbliart 42.9 (7) 0.0 (2) 0.0 (4)
Momignies 50.0 (6) 0.0 (0) 0.0 (1)
Couvin -- 0.0 (0) 0.0 (7)
1998 1999
S % positive F % positive S % positive F % positive
Trapping site (no. tested) (no. tested) (no. tested) (no. tested)
Dense cover
Thuin 10.0 (10) 0.0 (29) 12.8 (47) 21.5 (65)
Montbliart 50.0 (4) 0.0 (48) 44.9 (49) 27.2 (81)
Momignies 0.0 (14) 15.7 (51) 64.8 (54) 28.3 (60)
Couvin 0.0 (9) 0.0 (17) 59.3 (27) 50.0 (18)
Low cover
Thuin 0.0 (0) 0.0 (6) 0.0 (13) 17.6 (17)
Montbliart 0.0 (1) 0.0 (3) 50.0 (6) 0.0 (3)
Momignies 0.0 (0) 0.0 (0) 50.0 (4) 33.3 (3)
Couvin 0.0 (0) 0.0 (1) 66.7 (3) 0.0 (0)
(a) F, fall; S, spring.
(b) Trapping in fall 1996 at Couvin was performed on a limited 0.36-ha
area, where the vegetation cover was not determined.
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Serologic and genetic identification of Peromyscus maniculatus as the primary rodent reservoir for a new hantavirus in the southwestern United States. J Infect Dis 1994:169:1271-80. (24.) Stone R. The mouse-pinon nut connection. Science 1993;262:833. (25.) Young JC, Mills JN, Enria DA, Dolan NE, Khan AS, Ksiazek TG. New World hantaviruses. Br Med Bull 1998;54:659-73. (26.) Douglass RJ, Van Horn R, Coffin KW, Zanto SN. Hantavirus in Montana deer mouse deer mouse or white-footed mouse Any of about 60 species (genus Peromyscus, family Cricetidae) of small, delicate rodents that are active at night and are found in habitats from Alaska to South America. They often outnumber all other mammals in an area. populations: preliminary results. J Wildl Dis 1996;32:527-30. (27.) Graham TB, Chomel BB. Population dynamics of the deer mouse (Peromyscus maniculatus) and Sin Nombre virus, California Channel Islands. Emerg Infect Dis 1997;3:367-70. (28.) 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J Wildl Dis 1999:35:311-8. (33.) Bennett SG, Webb JP Jr, Madon MB, Childs JE, Ksiazek TG, Torrez-Martinez N, et al. Hantavirus (Bunyaviridae) infections in rodents from Orange and San Diego counties, California. Am J Trop Med Hyg 1999;60:75-84. (34.) Calisher CH, Sweeney W, Mills JN, Beaty BJ. Natural history of Sin Nombre virus in western Colorado. Emerg Infect Dis 1999;5:126-34. (35.) Douglass RJ, Wilson T, Semmens WJ, Zanto SN, Bond CW, Van Horn RC, et al. Longitudinal studies longitudinal studies, n.pl the epidemiologic studies that record data from a respresentative sample at repeated intervals over an extended span of time rather than at a single or limited number over a short period. of Sin Nombre virus in deer mouse-dominated ecosystems of Montana. Am J Trop Med Hyg 2001 ;65:33-41. (36.) Klein SL, Bird BH, Glass GE. Sex differences in immune responses and viral shedding viral shedding, n process that occurs when a virus is present in bodily fluids or open wounds and can thereby be transmitted to another person, as with herpetic lesions. following Seoul virus infection in Norway rats. Am J Trop Med Hyg 2001;65:57-63. (37.) Klein SL, Bird BH, Glass GE. Sex differences in Seoul virus infection are not related to adult sex steroid concentrations in Norway rats. J Virol 2000;74:8213-7. (38.) Rozenfeld FM, Le Boulange E, Rasmont R. Urine marking by male bank voles (Clethrionomys glareolus Schreber, 1780; Microtidae, Rodentia) in relation to their social rank. Can J Zool 1987;65:2594-601. (39.) Korch GW, Childs JE, Glass GE, Rossi CA, LeDuc JW. Serologic evidence of hantaviral infections within small mammal communities of Baltimore, Maryland: spatial and temporal patterns and host range. Am J Trop Med Hyg 1989;41:230-40. (40.) Kuenzi AJ, Morrison ML, Swann DE, Hardy PC, Downard GT. A longitudinal study longitudinal study a chronological study in epidemiology which attempts to establish a relationship between an antecedent cause and a subsequent effect. See also cohort study. of Sin Nombre virus prevalence in rodents, southeastern Arizona. Emerg Infect Dis 1999;5:113-7. Address for correspondence: Sophie Escutenaire, Rabies rabies (rā`bēz, ră`–) or hydrophobia (hī'drəfō`bēə), acute viral infection of the central nervous system in dogs, foxes, raccoons, skunks, bats, and other animals, and in Department, Pasteur Institute, 642 rue England, 1180 Brussels, Belgium; fax: 32-2-373-3286; e-mail: sescutenaire@pasteur.be Dr. Escutenaire completed doctoral studies in the Department of Immunology-Vaccinology, Faculty of Veterinary Medicine veterinary medicine, diagnosis and treatment of diseases of animals. An early interest in animal diseases is found in ancient Greek writings on medicine. Veterinary medicine began to achieve the stature of a science with the organization of the first school in the , University of Liege liege In European feudal society, an unconditional bond between a man and his overlord. Thus, if a tenant held estates from various overlords, his obligations to his liege lord, to whom he had paid “liege homage,” were greater than his obligations to the other , Belgium, on the epidemiology of hantavirus infection in wild mammals in Belgium. Her research focuses on rodent community factors involved in the dynamics of hantavirus infection. Sophie Escutenaire, * Patrice Chalon, ([dagger]) Florence De Jaegere, ([double dagger]) Lucie Karelle-Bui, ([dagger]) Georges Mees, ([dagger]) Bernard Brochier, * Francine Rozenfeld, ([double dagger]) and Paul-Pierre Pastoret (dagger]) * Pasteur Institute, Brussels, Belgium; ([dagger]) University of Liege, Liege, Belgium; and ([double dagger]) University of Brussels The University of Brussels can refer to three universities in Brussels, Belgium:
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