Natural History of Sin Nombre Virus in Western Colorado.A mark-recapture 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 immunoglobulin G immunoglobulin G n. Abbr. IgG The most abundant class of antibodies found in blood serum and lymph and active against bacteria, fungi, viruses, and foreign particles. Immunoglobulin G antibodies trigger action of the complement system. (IgG) antibody to 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) ) in rodent populations in western Colorado (1994--results summarized to October 1997) indicates the presence of SNV or a closely related 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. at two sites. Most rodents (principally deer mice deer mice Peromyscus maniculatus Public health The murine vector for Hantavirus. See Hantavirus. , Peromyscus maniculatus, and pinyon mice, P. truer) did not persist on the trapping webs much beyond 1 month after first capture. Some persisted more than 1 year, which suggests that even a few infected deer mice could serve as transseasonal reservoirs and mechanisms for over-winter virus maintenance. A positive association between wounds and SNV antibody in adult animals at both sites suggests that when infected rodents in certain populations fight with uninfected rodents, virus amplification occurs. At both sites, male rodents comprised a larger percentage of 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. mice than recaptured mice, which suggests that male mice contribute more to the SNV epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep cycle than female mice. In deer mice, IgG antibody prevalence fluctuations were positively associated with population fluctuations. The rates of seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. , which in deer mice at both sites occurred mostly during late summer and midwinter mid·win·ter n. 1. The middle of the winter. 2. The period of the winter solstice, about December 22. midwinter Noun 1. the middle or depth of winter 2. , were higher than the 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 , which suggests that the longer deer mice live, the greater the probability they will become infected with SNV. To monitor Sin Nombre virus (SNV) dynamics in natural rodent communities, we established 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. at two sites in western Colorado, each near a location where human hantavirus infections Hantavirus Infections Definition Hantavirus infection is caused by a group of viruses that can infect humans with two serious illnesses: hemorrhagic fever with renal syndrome (HFRS), and Hantavirus pulmonary syndrome (HPS). occurred in 1993. This article provides a summary of the data collected during the first 3 years of the studies. The results indicate that rodent populations in western Colorado have decreased since 1993; SNV or an SNV-like hantavirus persists at these sites; and prevalence of immunoglobulin G (IgG) antibody to SNV fluctuates with time and perhaps with weather patterns that modify the ecosystem. The Study Selected Sites Each study area was selected on the basis of its proximity to residences of 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. ) case-patients, convenience for field work, and guaranteed cooperation by land managers. Sites at Fort Lewis (La Plata La Plata (lä plä`tä), city (1991 pop. 640,344), capital of Buenos Aires prov., E central Argentina, 5 mi (8.1 km) inland from Ensenada, its port on the Río de la Plata. County, southwest Colorado) (N 37 [degrees] 13' 30.9" latitude, W 108 [degrees] 10' 51.1" longitude, altitude 2,438 m) and Molina (Mesa County, west central Colorado Central Colorado is a region of the U.S. state of Colorado. It can be roughly defined by Jackson County in the northwest, Weld County in the northeast, Pueblo County in the southeast, and Chaffee County in the southwest. ) (N 39 [degrees] 09' 45.8" latitude, W 108 [degrees] 03' 18.4" longitude, altitude 1,951 m) were within a few kilometers of case-patient residences. Fort Lewis (approximately 22 km west of Durango, 8 km south of Hesperus) is 10 km north of Red Mesa, Southern Ute Indian Reservation Tribal Flag of the Southern Ute Tribe The Southern Ute Indian Reservation lies in southwestern Colorado, USA, along the northern border of New Mexico. Its territory is comprised of land from three counties; in descending order of surface area they are La Plata County, , Colorado, where rodent trapping in 1993 showed that deer mice had an antibody prevalence rate of 50% to SNV and near where one of the persons who later died of HPS had been infected with SNV (1). Seroprevalence in Peromyscus maniculatus, the principal rodent reservoir of SNV, was approximately 50% to 19%, respectively, near study sites in La Plata and Mesa Counties (1). We established trapping webs (Mills et al., this issue, pp. 95-101) in two protected areas (Fort Lewis A and Fort Lewis B) of the 2,550 ha-Colorado State University San Juan Basin The San Juan Basin is a drainage basin and geologic structural basin in the Four Corners region of the Southwestern United States; its main portion covers around 4,600 square miles, encompassing much of northwestern New Mexico, northeastern Arizona, and parts of Colorado and Utah. Research Center, which serves as a model for cattle breeders and livestock geneticists This is a list of people who have made notable contributions to genetics. The growth and development of genetics represents the work of many people. This list of geneticists is therefore by no means complete. Contributors of great distinction to genetics are not yet on the list. . The natural characteristics of these sites have been preserved. Fort Lewis is in the drainage of the La Plata River La Plata River River, eastern central Puerto Rico. It flows about 45 mi (70 km) northwest and north, to empty into the Atlantic Ocean. Part of it is dammed to create a lake which provides hydroelectric power. , south of Mount Hesperus in the La Plata Mountains For other places with the same name, see La Plata (disambiguation). The La Plata Mountains are a small subrange of the San Juan Mountains in the southwestern part of Colorado, United States. . The general ecosystem of the area is montane mon·tane adj. Of, growing in, or inhabiting mountain areas. [Latin mont  nus, from m shrubland (2) superimposed su·per·im·pose tr.v. su·per·im·posed, su·per·im·pos·ing, su·per·im·pos·es 1. To lay or place (something) on or over something else. 2. on intrusive igneous rocks forming laccoliths (3). The overstory o·ver·sto·ry n. The uppermost layer of foliage that forms a forest canopy. vegetation at Fort Lewis A is predominately ponderosa pine ponderosa pine pinusponderosa. (Pinus ponderosa) and Gambel's oak Gambel's oak quercusgambelii. (Quercus gambeli); understory un·der·sto·ry n. An underlying layer of vegetation, especially the plants that grow beneath a forest's canopy. vegetation is primarily blue grama (Bouteloua gracilis), black grama (B. eriopoda), and floral components also seen at Fort Lewis B. At Fort Lewis B, 500 m from Fort Lewis A, overstory is essentially all Gambel's oak; understory is composed of blue and black grama or there is no overstory, with the microcommunity composed primarily of blue and black grama, small soapweed (Yucca glauca), tree cholla cholla Any cactus of the genus Opuntia, native to North and South America, having needlelike spines partly enclosed in a papery sheath. Chollas vary greatly in size and have small flowers, sometimes chartreuse and inconspicuous, but usually of more striking colors. O. (Opuntia opuntia Any plant of the genus Opuntia, the largest genus of the cactus family. Native to the New World, it has characteristic small bristles with backward-facing barbs. imbricata), and pasture sagebrush sagebrush, name for several species of Artemisia, deciduous shrubs of the family Asteraceae (aster family), particularly abundant in arid regions of W North America. The common sagebrush (A. (Artemesia frigida). The trapping sites near Molina (approximately 60 km east of Grand Junction Grand Junction, city (1990 pop. 29,034), seat of Mesa co., W Colo., at the junction of the Gunnison and Colorado rivers; inc. 1891. The shipping and processing center of a large ranch and irrigated farm region, it also serves the area's uranium, oil shale, gas, and ) are within 2 km of the home of a 1993 case-patient. In 1993, deer mice had an antibody prevalence rate of 19% to SNV (4). At Molina we established webs in two areas (Molina A and Molina B, 500 m apart) that are privately owned and have not been grazed by cattle for many years. The sites have no standing water sources, but an irrigation irrigation, in agriculture, artificial watering of the land. Although used chiefly in regions with annual rainfall of less than 20 in. (51 cm), it is also used in wetter areas to grow certain crops, e.g., rice. ditch, containing rapidly running water, flows during the summer at the west and north edges of Molina A. The general ecosystem of the area is semidesert sem·i·des·ert n. A semiarid area often located between a desert and a grassland or woodland. Noun 1. semidesert - a region much like a desert but usually located between a desert and the surrounding regions shrubland (2) superimposed on Mancos shale (3). At Molina A, we found principally Rocky Mountain juniper (Juniperus scopulorum Juniperus scopulorum (Rocky Mountain Juniper) is a small tree reaching 5-20 m tall, native to western North America, in Canada in British Columbia and southwest Alberta, in the United States from Washington east to North Dakota, south to Arizona and also locally ), pinyon pine The pinyon (or piñon) pine group grows in the southwestern United States and in Mexico. The trees yield edible pinyon nuts, which were a staple of the Native Americans, and are still widely eaten. , small soapweed, and pasture sagebrush. Molina B is characterized by pasture sagebrush, Rocky Mountain juniper, Party's rabbitbrush rabbitbrush, name for shrubby plants of the American genus Chrysothamnus of the family Asteraceae (aster family). They grow in arid regions of the W United States and in Mexico and are characteristic chaparral plants. (Chrysothamnus paryii), and pinyon pine at the periphery. All field data were recorded on hard copy and entered into EPI- epi- word element [Gr.], upon; over. epi- or ep- pref. 1. On; upon: epineural. 2. Over; above: epibasal. 5, a database and statistical program available from 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 )(5). Sampling Methods All materials were transported to the study sites or were available in towns near the sites. Under license of the State of Colorado's Department of Natural Resources Many sub-national governments have a Department of Natural Resources or similarly-named organization:
prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. methods agreed upon Adj. 1. agreed upon - constituted or contracted by stipulation or agreement; "stipulatory obligations" stipulatory noncontroversial, uncontroversial - not likely to arouse controversy by collaborating groups (Mills et al., this issue, pp. 95-101). In brief, each web comprised 12 rows of 12 Sherman traps (7.6 cm x 8.9 cm x 22.9 cm; H.B. Sherman Traps, Inc., Tallahassee, FL) each, the first four traps in each row being placed 5 m apart, the next eight placed 10 m apart; rows were 30 degrees from each other. The location of each trap was marked with a construction flag. 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 Metaphane (methoxyflurane, Pitman-Moore, Mundelein, IL) during processing, marked with sequentially numbered stainless steel stainless steel: see steel. stainless steel Any of a family of alloy steels usually containing 10–30% chromium. The presence of chromium, together with low carbon content, gives remarkable resistance to corrosion and heat. ear tags, and released at the capture site. Webs A and B at each location were sampled for 2 or 3 consecutive nights, but rodents were neither bled nor swabbed at webs B until October 1996, when animals from both sites were sampled. The original intent had been to not take blood or oropharyngeal oropharyngeal /oro·pha·ryn·ge·al/ (-fah-rin´je-al) 1. pertaining to the mouth and pharynx. 2. pertaining to the oropharynx. swab samples at either web B to determine, by comparison with data from the corresponding web A, the impact of these invasive procedures on the rodent populations. Because the death rates at webs A and B were essentially the same after 2 years (6; C.H. Calisher and B.J. Beaty, unpub, data), in October 1996, we began to take blood samples from rodents at both webs and to no longer collect oropharyngeal swabs. Rodents, principally deer mice, were processed and samples were placed on dry ice (-70 [degrees] C), returned to the laboratory in Fort Collins, and placed in a mechanical freezer (-80 [degrees] C) until they were tested for IgG antibody. Sampling was conducted according to standardized protocols (Mills et al., this issue, pp. 95-101). To compare age categories, in the field we empirically classified captured animals as juvenile, subadult, or adult, according to Fitzgerald, Meaney, and Armstrong (2). For final determination, we separated animals into weight classes (10% to 40% of adult mean weight = juvenile, 41% to 80% = subadult, and 81% to 100% = adult). After being tested at Colorado State University Colorado State University, at Fort Collins; land-grant with state and federal support; chartered 1870, opened 1879 as an agricultural college, assumed present name in 1957. There is a veterinary teaching hospital, an agricultural campus, and a research campus. , blood samples and oropharyngeal swabs were shipped to Atlanta, Georgia, where confirmatory testing for IgG antibody to SNV was conducted with blood samples, and oropharyngeal swabs were stored for possible future testing. Enzyme-Linked Immunosorbent Assays 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. ) for IgG Antibody to SNV ELISA was performed at Colorado State University as described (Mills et al., this issue, pp. 95-101). Results presented here were obtained at Colorado State University; testing at CDC provided confirmation. We initially screened whole blood samples at 1:100; antibody-positive samples were 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. to determine end points. Population Densities We estimated the population size at each sampling period by calculating the minimum number of rodents alive (7). The minimum number of rodents alive for a given trapping session was calculated by taking the total number of rodents captured during that session and adding to that sum all rodents that had been captured on at least one previous and one subsequent occasion. The minimum number of antibody-positive rodents was calculated similarly, and the estimated standing prevalence was calculated as minimum number of antibody-positive rodents/minimum number of rodents alive. Findings Over the 41-month trapping period at Fort Lewis and the 37-month trapping period at Molina, antibody reactive with SNV was detected in 29 (9.6%) of 302 deer mice at Fort Lewis and 36 (9.4%) of 385 at Molina; 4 (2.6%) of 155 of pinyon mice at Molina also had antibody (Table 1). For comparison, in 1993, prevalence of antibody to SNV in P. maniculatus was approximately 50% near Fort Lewis (La Plata County) and 19% near Grand Junction (Mesa County) (1). Of 112 least chipmunks (Tamias minimus), two Colorado chipmunks (T. quadrivittatus), and two western harvest mice (Reithrodontomys megalotis), none had antibody to SNV. Table 1. Antibody (enzyme-linked immuno- sorbent sorbent /sor·bent/ (sor´bent) an agent that sorbs; see absorbent and adsorbent. sorbent an agent that sorbs. assay for immunoglobulin G) to Sin Nombre virus, Fort Lewis and Molina, Colorado Molina is an unincorporated town and a U.S. Post Office located in Mesa County, Colorado, United States. The Molina Post Office has the ZIP Code 81646.[1] Geography Molina is located at (39.188893,-108.060322). , 1994-1997
No. %
positive/ Antibody-
Location Species No. tested positive
Fort Lewis Peromyscus 29/302 9.6
maniculatus
Tamias minimus 0/48 0
P. truei 1/3 33
Molina P. maniculatus 36/385 9.4
P. truei 4/155 2.6
P. leucopus 1/2 50
Reithrodontomys 0/2 0
megalotis
T. minimus 0/64 0
T. quadrivittatus 0/2 0
At Fort Lewis, trapping success (number of animals per total number of trap nights) was 0.3% to 7.6%, depending on the season (lowest rates, April-June; highest, August-October). Antibody-positive deer mice were found in 13 of 21 trapping intervals. Antibody prevalence (calculated when more than four deer mice were caught in a given trapping period) was 0% to 42.9% with a mean period) was 0% to 42.9% with a mean of 29 (9.5%) of 302. Antibody to SNV was detected in adult (10.5%), subadult (9.8%), and juvenile (12.5%) deer mice; the stages represented 63.9%, 13.1%, and 23%, respectively, of the deer mice captured. Males represented 48.8% of the deer mice (and 47.8% of recaptured deer mice) but 58.3% of the antibody-positive rodents. At Molina, trapping success was 2.6% to 17.9% and, as at Fort Lewis, depended on the season (lowest rates, May-June; highest, July-October). Antibody-positive deer mice were found in 12 of 17 trapping intervals. Antibody prevalence was 0% to 33% in deer mice (mean 9.4%) and 0% to 18.2% in pinyon mice (mean 2.6%). Antibody to SNV was detected in adult (11.3%), subadult (1.7%), and juvenile (4.4%) deer mice; the stages represented 73.1%, 15.3%, and 11.7%, respectively, of the mice captured. Males represented 45.5% of the 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. population, 46.3% of the recaptured deer mice, and 60% of the antibody-positive mice. Antibody was detected in four adult (three male, one female) pinyon mice (P. truei). Of 118 pinyon mice collected, 62 (50.8%) were female and 56 (49.4%) were male. We detected seropositive pinyon mice only during May and June 1995 and April 1996. Wounds and Antibody Because we were working with a large number of anesthetized rodents, we did not closely examine each animal for wounds, as had been done by Glass et al. (8). However, we noted the most obvious wounds (ear nicks, tom ears, scarred tail) and those likely not to have been caused by trapping, tagging, or processing, and we evaluated the data for deer mice at webs A for Fort Lewis and Molina. Of 233 adult deer mice at Fort Lewis, 20 had both antibody and wounds, 76 had no antibody but had wounds, 4 had antibody and no wounds, and 133 had neither antibody nor wounds; thus, wounds were associated with antibody to SNV among adult deer mice (Yates-corrected chi-square 17.71, p = [is less than] 0.001). At Molina, of 339 adult deer mice, 8 had antibody and wounds, 23 had no antibody but had wounds, 21 had antibody and no wounds, and 287 had neither antibody nor wounds; again wounds were associated with antibody to SNV (Yates-corrected chi-square 10.67, p = [is less than] 0.001). Seroconversion Fifteen deer mice and one pinyon mouse Peromyscus truei (Shufedlt, 1885) or the pinyon mouse, is native to the southwestern United States. These medium sized mice are often distinguished by their relatively large ears. seroconverted (i.e., 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. to seropositive or a fourfold or greater increase in titer titer /ti·ter/ (ti´ter) the quantity of a substance required to react with or to correspond to a given amount of another substance. ) between captures (Figure 1). At Fort Lewis, 302 deer mice (150 female and 152 male) were captured. Of these, 37 female and 37 male mice were recaptured at least once. Five male and three female deer mice at Fort Lewis seroconverted. One deer mouse had antibody for the first time 14 months after it was initially captured. At Molina, 385 deer mice (212 female, 173 male) and 155 pinyon mice (85 female, 70 male) were captured. Of these, 33 female and 30 male deer mice and 12 female and 10 male pinyon mice were recaptured at least once. Five male and two female deer mice and one male pinyon mouse seroconverted. An additional three deer mice (two male, one female) at Molina were recaptured and had significant (3,200 to 25,600) but stable IgG antibody titers; we did not consider these as having seroconverted. The five male mice seroconverted at Fort Lewis during the summer (one between July and September 1994, two between July and September 1995, one at [estimated] midsummer 1995, and one between June and September 1997); two female mice seroconverted between October 1994 and May 1995, and one female mouse seroconverted during late summer (September to October) 1997. At Molina, one male deer mouse seroconverted in late spring (estimated May) 1995, one in late fall 1995, two male deer mice and a male pinyon mouse during the winter or early spring of 1995 to 1996, and one male deer mouse during late spring 1996; one female deer mouse seroconverted in late summer 1995 and one during the winter 1995 to 1996. Seropositive samples were titrated by 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. with fourfold dilutions. Titers were 100 to 102,400, with most of them at 6,400 to 25,600. [Figure 1 ILLUSTRATION OMITTED] Incidence Rates We calculated incidence rates of IgG antibody to SNV in deer mice recaptured and sampled at least twice at Fort Lewis and Molina (Table 2). At Fort Lewis A, the overall incidence was 4.6 new infections per 100 mice per month (4.8 for male, 4.4 for female); at Fort Lewis B, the overall incidence was 10.91 (9.1 for male, 18.2 for female); and at the two sites combined, the overall incidence was 6.1 (6.3 for male, 5.8 for female). At Molina A, the overall incidence rate in deer mice was 2.8 new infections per 100 mice per month (3.2 for male, 2.3 for female); at Molina B, no new infections were detected during the observation period; the incidence at the two sites combined was 2.6 (3.0 for male, 2.2 for female). Because sufficient numbers of pinyon mice were captured and a seroconversion was detected at Molina A, we were able to calculate the incidence of seroconversion: 0.6 overall (1.4 for male, 0 for female); the incidence at the two sites combined was 0.5 (1.3 for male, 0 for female). Table 2. Incidence of immunoglobulin G antibody reactive with Sin Nombre virus in Peromyscus maniculatus (deer mice) recaptured and sampled at least twice at Fort Lewis (June 1994-October 1997) and P. maniculatus and P. truei (pinyon mice) recaptured and sampled at least twice at Molina, western Colorado (October 1994-October 1997)
Species/ No. at No. of new
location Sex risk(a) infections
Deer mice/ Grid A 38 4
Ft. Lewis male 17 2
female 21 2
Grid B 11 3
male 6 2
female 5 1
Grids A +
B 49 7
male 23 4
female 26 3
Deer mice/ Grid A 59 5
Molina male 33 3
female 26 2
Grid B 7 0
male 4 0
female 3 0
Grids A +
B 66 5
male 37 3
female 29 2
Pinyon Grid A 22 1
mice/
Molina male 10 1
female 12 0
Grid B 15 0
male 7 0
female 8 0
Grids A +
B 37 1
male 17 1
female 20 0
Cum. %
Species/ antibody- Mouse mos. of
location Sex pos. observation(b)
Deer mice/ Grid A 10.5 88
Ft. Lewis male 5.9 42
female 9.5 46
Grid B 27.3 27.5
male 33.3 22
female 20.0 5.5
Grids A +
B 14.3 115.5
male 17.4 64
female 11.5 51.5
Deer mice/ Grid A 8.5 179.5
Molina male 11.0 94
female 7.7 85.5
Grid B 0 12.0
male 0 7.5
female 0 4.5
Grids A +
B 7.6 191.5
male 8.1 101.5
female 6.9 90
Pinyon Grid A 4.5 157
mice/
Molina male 10.0 71
female 0 86
Grid B 0 33.5
male 0 9
female 0 24.5
Grids A +
B 2.7 190.5
male 5.9 80
female 0 110.5
Species/
location Sex Incidence(c)
Deer mice/ Grid A 4.6
Ft. Lewis male 4.8
female 4.4
Grid B 10.9
male 9.1
female 18.2
Grids A +
B 6.1
male 6.3
female 5.8
Deer mice/ Grid A 2.8
Molina male 3.2
female 2.3
Grid B 0
male 0
female 0
Grids A +
B 2.6
male 3.0
female 2.2
Pinyon Grid A 0.6
mice/
Molina male 1.4
female 0
Grid B 0
male 0
female 0
Grids A +
B 0.5
male 1.3
female 0
(a) No. of mice antibody-negative at first capture. (b) Total time intervals between successive captures when mice were antibody-negative, plus half the interval when mice changed from antibody-negative to antibody-positive. (c) New infections per 100 mice per month. Longevity By recapturing animals, we were able to estimate the longevity of infected and uninfected mice at the sites. Most Peromyscus spp. (75.7% at Fort Lewis, 66.2% at Molina) were not recaptured after they were first caught. At Fort Lewis, of 118 female and 117 male deer mice, 79 and 83, respectively, were caught only once; 61 were recaptured only within a 5-month period, eight within 6 to 9 months, and four 11 to 14 months after they were first captured. At Molina, of 164 female and 150 male deer mice, 115 and 93, respectively, were caught only once; 89 were recaptured only within a 4-month period, 15 only within 5 to 9 months, and 2 as long as 10 months after they were first captured. Of 63 female and 59 male pinyon mice, 49 and 43, respectively, were caught only once; 21 were recaptured only within a 4-month period, 5 only within 5 to 9 months, and 1 each for 10, 11, 19, and 20 months after they were first captured. Longevity data of seropositive and seronegative deer mice at Fort Lewis and Molina are summarized in Table 3. Eighteen deer mice had antibody at two or three bleeding intervals from 1 to 7 months after first capture (mean = 2.4 months). Totals do not match the text above because blood samples were not collected from captured rodents at sites B until October 1996 and because we included separately periods of seronegativity and 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. for deer mice that seroconverted. Differences between mean longevities by sex, site, or antibody status were not statistically significant (Yates-corrected chi-square, p = [is greater than] 0.2). Table 3. Longevity of hantavirus-infected and -uninfected male and female Peromyscus maniculatus at Fort Lewis and Molina, Colorado, June 1994-October 1997 expressed as number of months between first and last capture
No. months between first
and last capture
Sero- Total
Site Sex status No. 1 2 3 4 5 6
Fort Lewis F + 3 2
M + 6 3 2
Molina F + 3 2 1
M + 6 4 1
Fort Lewis F - 27 15 5 2 2
M - 22 7 4 2 2 1 1
Molina F - 37 24 2 4 2 1
M - 27 13 1 4 2 3
No. months between first and
last capture
Site Sex 7 8 9 10 11 Mean
Fort Lewis F 1 3
M 1 2.7
Molina F 1.7
M 1 2.3
Fort Lewis F 1 1 1 2.5
M 2 2 1 3.7
Molina F 2 1 1 2.4
M 1 1 2 3.2
Population Densities Deer mouse populations and prevalence of antibody to SNV at Fort Lewis (Figure 2) were relatively low throughout this study, except in May and June 1995 when samples included only four deer mice and one deer mouse, respectively. Mean minimum number of rodents alive was 28 in 1994 but lower from 1995 to 1997 (10.8, 13.4, and 16.4, respectively). At Molina, populations were relatively stable between 1995 and 1997 (only one collection made in 1994), with mean minimum number of rodents alive values of 31.2, 20.4, and 25.4, respectively. As at Fort Lewis, estimated standing prevalence values were commensurately low (Figure 3). [Figures 2-3 ILLUSTRATION OMITTED] Conclusions On the basis of the high antibody titers of these seropositive samples, our findings elsewhere in Colorado (Calisher, Beaty, and Mills, unpub, data), and the findings of others studying hantaviruses in the Southwest (9), we presumed that IgG antibody to SNV in deer mice indicated infection with SNV and not with El Moro Canyon or another hantavirus. Although we did not attempt to isolate or detect hantaviral 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 in blood or other tissues from mice with antibody, the only hantavirus specifically identified in deer mice in western Colorado has been SNV (10). The presence of IgG antibody to hantaviruses in rodents is presumed to indicate past infection and present infection, at least in the primary vertebrate hosts of hantaviruses (Mills et al., this issue, pp. 135-142). That is, rodents infected with hantaviruses with which they appear to be closely associated coevolutionarily (e.g., deer mice and SNV, Western harvest mice and El Moro Canyon virus, rice rats [Oryzomys palustris] and Bayou virus, Black Creek Black Creek may refer to: In the United States:
cotton rat gnawer, rodent - relatively small placental mammals having a single pair of constantly growing incisor teeth specialized for gnawing ]) do not appear ill or otherwise affected by hantaviruses specific to them. In host-virus associations that have been studied, the specific hosts become infected early or later in life, are viremic for a short period, and 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. virus in their saliva, urine, and feces, perhaps for life (11-14). Fighting (including exchange of blood and saliva) between infected and uninfected adult rodents has been suggested as the primary mechanism by which hantaviruses are amplified epizootically (8). Infected rodents become viremic and viruric and serve as subsequent sources of infection for others in the population. Earlier studies using Seoul virus Seoul virus is a species of hantavirus that can cause a form of hemorrhagic fever. and laboratory rats as a model system had indicated that while in newborn rats infection became persistent, in older rats it was transient (15). However, evidence using Black Creek Canal virus and adult hispid cotton rats, Hantaan virus and Apodemus agrarius, and 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 and Clethrionomys glareolus indicates that whereas 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. may diminish over time, virus can still be detected in various organs, including the salivary gland salivary gland Any of the organs that secrete saliva. Three pairs of major glands secrete saliva into the mouth through distinct ducts: the parotid glands (the largest), between the ear and the back of the lower jaw; the submaxillary glands, along the side of the lower jaw; , for several months after infection (11 - 14). Given the relatively brief life span of rodents, infection and concomitant infectivity for a few weeks or months would provide a mechanism for seasonal, albeit not transseasonal, persistence of hantaviruses. Passive acquisition of maternal antibody may protect the offspring of infected dams early in their lives, but when antibody wanes, they enter the adult population as susceptibles. Infected later in life, they can become persistent shedders of virus and sources of infection for others in the population. Deer mice infected with SNV when very young likely are able to serve as reservoirs of the virus for the remainder of their lives. Although our studies do not distinguish between death and dispersal, the life span of many deer mice at these sites may not be much more than a month. However, because some deer mice live for 1 or 2 years, longevity of even a small proportion of the deer mouse population may provide a transseasonal mechanism for virus persistence. A second mechanism of virus transmission, an epizootic one, depends on short-term infections of deer mice infected as subadults or as adults. At periods of deer mouse population peaks (e.g., 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. , in late summer and fall, and during period of decreased availability of food), male mice fight one another for breeding partners, food, and territory. This premise is supported by results of serologic tests of recaptured deer mice at Fort Lewis and at Molina. At Fort Lewis, 48.8% of the deer mice and 47.8% of the recaptured deer mice were male, but 58.3% of the seropositive deer mice were male. At Molina, 45% of the deer mice and 46.3% of the recaptured deer mice were male, but 60% of the seropositive deer mice were male. These data support the hypothesis that male deer mice contribute more to the epizootic cycle of SNV than female deer mice. However, the lack of association between sex, wounds, and antibody at either Fort Lewis or Molina indicates that individual mice of either sex may fight and, through this mechanism or another, become infected with a hantavirus. That most mice with antibody to SNV are male supports the suggestion that fighting among mice, biting, and scratching can lead to hantavirus transmission from an infected to an uninfected, wounded mouse (4). The limited time these mice may be able to transmit virus might be sufficient to maintain virus infection in the population. When deer mouse populations decrease precipitously because of decreased availability of food and water, the likelihood that SNV will disappear from the population increases. However, a few lived, persistently infected deer mice can serve as reservoirs until conditions are suitable for the populations to recover. Our data appear to support such a unified hypothesis. Fluctuations in IgG antibody prevalence in deer mice at Fort Lewis and at Molina have lagged somewhat behind but have been similar to fluctuations in deer mouse population. In male deer mice at Fort Lewis and at Molina, most seroconversions (recent infections) occurred during the summer or fall, whereas in female deer mice, most occurred between fall and spring. During winter, Colorado deer mice reduce their home range, aggregate in nests, and enter short-term torpor--strategies that together temper reduced food availability and energy loss due to cold (2). Although we did not find deer mice that had been infected for more than 3 months, we recovered a few more than 1 year (some nearly 2 years) after they first were trapped; thus, under natural conditions and despite the usual declines caused by predation predation Form of food getting in which one animal, the predator, eats an animal of another species, the prey, immediately after killing it or, in some cases, while it is still alive. Most predators are generalists; they eat a variety of prey species. , cold, heat, and decreases in food, deer mice that reach adulthood can live as long as 2 years (2), a period sufficient to allow SNV to survive adverse conditions of low populations and the resulting decreased number of susceptibles. Furthermore, whereas the overall seroprevalence of IgG antibody to SNV in deer mice at Fort Lewis was 6.8% (12 of 165) and in deer mice and pinyon mice, respectively, at Molina 7.2% (15 of 193) and 5.5% (3 of 52), the rate of seroconversion among deer mice at Fort Lewis was 16.3% (8 of 41) recaptures, and among deer mice and pinyon mice, respectively, at Molina 9.9% (7 of 64) and 3.3% (1 of 29). These results suggest that the longer deer mice live, the greater the cumulative probability they will become infected with SNV. The deer mouse, the most numerous mammal in North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. , often described as a "quintessential generalist," can survive on any dry land habitat in its range and invade and exploit areas disturbed by flood, fire, avalanche, landslides, mining, construction, extreme grazing, or land development. In ecologically stable areas, deer mice may be limited by the presence of more specialized rodent species (2), but they are found from forests to grasslands, canyons to deserts, farmlands to farm houses and suburban homes, moving into the latter more often in fall but able to take up residence whenever an opportunity presents itself. Thus, the movement of SNV-infected deer mice into human residences itself creates a risk factor for HPS. The Fort Lewis and Molina sites have not been affected by obvious ecosystem perturbations in recent years, and deer mouse populations at these sites are not high, yet are considerably decreased from the apparently inordinately high levels of 1993 (J. Mills, pers. comm. 1997). Each site seems ecologically stable, but subtle changes may have gone unnoticed. Deer mice are omnivores, storing food for winter consumption but known to feed on acorns, nuts, insects, other small invertebrates, carrion, fungi, bone, and various plant parts, including seeds, leaves, and bark, roots, and tubers (2,16). In one study, seeds accounted for 69% to 76% of stomach contents of deer mice in Colorado, insects for 14% to 25% (2). This proportion depends on the season (i.e., availability of food supply); deer mice are more likely to feed on insects and insect larvae Larvae, in Roman religion Larvae: see lemures. in spring, seeds and berries in fall. Notwithstanding the nature of deer mice to consume a variety of foods, they rely heavily on acorns, when oaks (Quercus sp.) comprise a significant proportion of their habitat (16). Further, in the northeastern United States, the quantity of mast seems directly related to population size of white-footed mice (P. leucopus) and eastern chipmunks (T. striatus) (17). Although Gambel's oak is abundant at the Fort Lewis trapping sites and copious numbers of acorns were attached to the trees and on the ground in 1994, we did not observe acorns on trees there between spring 1995 and fall 1997. The chipmunk chipmunk, rodent of the family Sciuridae (squirrel family). The chipmunk of the E United States and SE Canada is of the genus Tamias. The body of the common Eastern chipmunk, Tamias striatus, is about 5 to 6 in. population at this site was, with the exception of a transient, moderate increase in June 1996, never high during our study period (June 1994 to October 1997). At the Molina sites, which do not have oaks, the chipmunk population declined considerably after June 1996 and did not return to its previous level. Chipmunks may serve as an indicator for the ready availability of acorns and other nuts or food in general. The continued low population densities of deer mice at Fort Lewis and Molina are puzzling. If, for example, deer mouse population densities in surrounding areas are higher than at the study sites, one might expect deer mice from those areas to move into the area with the low population. However, at Fort Lewis 59% of adult and 5% of subadult deer mice were recaptured; at Molina 86% of adults and no subadult or juvenile deer mice were recaptured as adults. These data indicate that few, if any, young deer mice are immigrating to these sites or if they are, they did not survive long enough to be captured, and the survival rate of this species' young is not high. Temperature fluctuations that affect habitat characteristics can influence rodent breeding seasons (e.g., rate of plant growth, total available nutritional biomass). However, analyses of available data (not presented) did not provide obvious evidence for such direct relationships. In contrast, a paucity of precipitation at Fort Lewis, between March 1995 and October 1996, and at Molina between May 1995 and April 1997, coincided with the usual breeding season of deer mice, least chipmunks, and other rodents at these sites, and with lower rodent population densities between the end of 1995 and the end of 1997; antibody prevalence fluctuated in parallel. Whether the two consecutive relatively wet years 1996 and 1997 will bring about conditions suitable to increase rodent populations near Fort Lewis and Molina and lead to an increase in HPS in the near term has not been determined. Availability of water may be the sine qua non [Latin, Without which not.] A description of a requisite or condition that is indispensable. In the law of torts, a causal connection exists between a particular act and an injury when the injury would not have arisen but of plant food availability, reproductive preparedness, gravidity gravidity Obstetrics The state of being, or having been, pregnant. Cf Gravity. rates, and attendant intraspecific in·tra·spe·cif·ic also in·tra·spe·cies adj. Arising or occurring within a species: intraspecific competition. fighting among individual mice within an increased population. From data (not shown) collected at these sites since October 1997, indications are that both rodent population densities and antibody prevalence are increasing at both sites. If precipitation excess correlates with rodent population, density increases, and the prevalence of hantaviruses, we will be able to predict increases in risk for hantavirus infection in the human population. Acknowledgments We thank the following for directly assisting us in the field or with logistics, encouragement, and the odd cool drink: David W. Schafer, Mr. and Mrs. Roger Szczecinski, Catherine Crabb, Robin Cams, and Marcia Patterson, Heather Clifton, Ted Davis, Ed Kuhn and Gordon Smith, Brendan Wolff, and Edgar C. de Van III. Funding for this work was provided by the U.S. Centers for Disease Control and Prevention, Atlanta, GA, under cooperative agreement No. U50/ccu809862-03. References (1.) Childs JE, Ksiazek TG, Rollin PE, Krebs JW, Zaki S, Nichol ST, et al. Hantaviruses and their rodent reservoirs in the United States. In: Halverson WS, Crabb AC, editors. Proceedings of the 16th Vertebrate Pest Conference; 1994. p. 188-91. (2.) Fitzgerald JP, Meaney CA, Armstrong DM. Mammals of Colorado. Niwot (CO): Colorado University Press of Colorado The University Press of Colorado is a nonprofit publisher supported partly by Adams State College, Colorado State University, Fort Lewis College, Mesa State College, Metropolitan State College of Denver, the University of Colorado, the University of Northern Colorado, and Western ; 1994. (3.) Baars DL. Navajo country: a geology and natural history of the Four Comers region. Albuquerque (NM): University of New Mexico Press The University of New Mexico Press, founded in 1929, is a university press that is part of the University of New Mexico. External link
(4.) Mills JN, Ksiazek TG, Ellis BA, Rollin PE, Nichol ST, Yates TL, et al. Patterns of association with host and habitat: antibody reactive with Sin Nombre virus in small mammals in the major biotic communities of the southwestern United States. Am J Trop Med Hyg 1997;56:273-84. (5.) Dean AG, Dean JA, Burton AH, Dicker dick·er intr.v. dick·ered, dick·er·ing, dick·ers To bargain; barter. n. The act or process of bargaining. RC. Epi Info [computer program]. Version 5. A word processing, database, and statistics program for epidemiology on microcomputers. Atlanta (GA): Centers for Disease Control; 1990. p. 1-384. (6.) Parmenter CA, Yates TL, Parmenter RR, Mills JN, Childs JE, Campbell ML. Mammal survival and trapability in mark-recapture monitoring programs for hantavirus. J Wildl Dis 1998;34:1-12. (7.) Krebs CJ. Demographic changes in fluctuating populations of Microtus californicus. Ecological Monographs 1966;36:239-73. (8.) Glass GE, Childs JE, Korch GW, LeDuc JW. Association of intraspecific wounding with hantaviral infection in wild rats (Rattus norvegicus). Epidemiol Infect 1988; 101:459-72. (9.) Rowe JE, St Jeor SC, Riolo J, Otteson EW, Monroe MC, Henderson WW, et al. Coexistence of several novel hantaviruses in rodents indigenous to North America. Virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression 1995 ;213:122-30. (10.) Nichol ST, Spiropoulou CF, Morzunov S, Rollin PE, Ksiazek TG, Feldmann H, et al. Genetic identification of a novel hantavirus associated with an outbreak of acute respiratory illness in the southwestern United States. Science 1993 ;262:914-7. (11.) Lee HW, Lee PW, Baek L J, Song CK, Seong IW. Intraspecific transmission of Hantaan virus, etiologic agent of Korean hemorrhagic fever Ko·re·an hemorrhagic fever n. See epidemic hemorrhagic fever. , in the rodent Apodemus agrarius. Am J Trop Med Hyg 1981;30:1106-12. (12.) Gavrilovskaya IN, Apekina NS, Bernshtein AD, Demina VT, Okulova NM, Myasnikov YA, et al. Pathogenesis of hemorrhagic fever with renal syndrome hemorrhagic fever with renal syndrome n. See epidemic hemorrhagic fever. virus infection and mode of horizontal transmission horizontal transmission n. Transmission of infection by contact. horizontal transmission Epidemiology The transmission of an infection from one to another person of the same generation in the same population. of hantavirus in bank voles. Arch Virol 1990;Suppl 1:57-62. (13.) Yanigihara R, Amyx HL, Gajdusek DC. Experimental infection with Puumala virus, the etiologic agent of nephropathia epidemica, in bank voles (Clethrionomys glareolus). J Virol 1985;55:34-8. (14.) Hutchinson KL, Rollin PE, Peters CJ. Pathogenesis of a North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. hantavirus, Black Creek Canal virus, in experimentally infected Sigmodon hispidus. Am J Trop Med Hyg 1998;59:58-65. (15.) Kariwa H, Kimura M, Yoshizumi S, Arikawa J, Yoshimatsu K, Takashima I, et al. Modes of Seoul virus infections: persistency in newborn rats and transiency in adult rats. Arch Virol 1996;141:2327-38. (16.) Martin AC, Zim HS, Nelson AL. American wildlife & plants. A guide to wildlife food habits. New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of : Dover Publ., Inc.; 1951. p. 261-2. (17.) Ostfeld RS, Jones CG, Wolff JO. Of mice and mast. BioScience 1996;46:323-30. Charles H. Calisher,(*) William Sweeney,(*) James N. Mills,([dagger]) and Barry J. Beaty,(*) (*)Colorado State University, Fort Collins, Colorado The City of Fort Collins, a home rule municipality situated on the Cache la Poudre River along the Colorado Front Range, is the county seat and most populous city in Larimer County, Colorado. , USA; and ([dagger])Centers for Disease Control and Prevention, Atlanta, Georgia, USA Dr. Calisher is professor of microbiology, Arthropod-Borne and Infectious Diseases Laboratory, Department of Microbiology, Colorado State University. His areas of expertise are arboviruses arboviruses (ar´bōvī´r  sz),n. , hantaviruses, and other rodent-borne viruses. His research focuses on hantaviruses, arboviruses, arenaviruses, and epidemiology. Address for correspondence: Charles H. Calisher, Arthropod-borne and Infectious Diseases Laboratory, Foothills Campus, Colorado State University, Fort Collins, CO 80523, USA; fax: 970-491-8323; e-mail: calisher@usa.healthnet.org. |
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