Survey of tickborne infections in Denmark.We conducted a study of the distribution and prevalence of tickborne infections in Denmark by using roe deer as sentinels. Blood samples from 237 roe deer were collected during the 2002-2003 hunting season. Overall, 36.6% of deer were Borrelia Borrelia A genus of spirochetes that have a unique genome composed of a linear chromosome and numerous linear and circular plasmids. Borreliae are motile, helical organisms with 4–30 uneven, irregular coils, and are 5–25 micrometers long and 0. 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. , while 95.6% were Anaplasma phagocytophilum Anaplasma phagocytophilum (formerly Ehrlichia phagocytophila) is a gram-negative bacterium that is fairly unique in its trophism to neutrophils. It causes Human granulocytic anaplasmosis. positive; all animals were negative for Bartonella quintana Bartonella quintana Rochalimaea quintana Infectious disease A slender, fastidious coccobacillary bacterium found in the normal flora of small rodents transmitted by body lice, which causes trench fever, bacillary splenitis, bacteremia, endocarditis, and B. henselae by indirect immunofluorescence assay. When a hemagglutination-inhibition test was used, 8.7% of deer were found positive for tickborne 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 (TBE)-complex virus. A total of 42.6% were found positive by 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) ) for A. phagocytophilum with significant seasonal variation. All were PCR negative for Rickettsia rickettsia (rĭkĕt`sēə), any of a group of very small microorganisms, many disease-causing, that live in vertebrates and are transmitted by bloodsucking parasitic arthropods such as fleas, lice (see louse), and ticks. helvetica. PCR and sequencing also showed a novel bacterium in roe deer previously only found in ticks. The study showed that the emerging pathogen emerging pathogen Public health Any pathogen that ↑ incidence of an epidemic outbreak Examples Cryptosporidium, E coli O157:H7, Hantavirus, multidrug resistant pneumococci, vancomycin-resistant enterococci. See Emergent disease. A. phagocytophilum is widely distributed and that a marked shift has occurred in the distribution of TBE-complex virus in Denmark. This finding supports studies that predict alterations in distribution due to climatic changes. ********** A change in the distribution and frequency of vectorborne infections may be among the first signs of the effect of global climatic change on human health (1). Tickborne infections are the most frequent human vectorborne infections in Europe; the incidence of many of these diseases has been on the rise, and new infections have emerged. In Denmark, borreliosis is known to be endemic and widespread, while tickborne encephalitis (TBE) has been found only on the island of Bornholm. In recent years, human serosurveys have indicated that granulocytic granulocytic pertaining to granulocytes. granulocytic leukemia see myelocytic leukemia. granulocytic sarcoma extramedullary growth of multiple, focal granulocytic neoplasm. They may be neutrophilic or eosinophilic. ehrlichiosis caused by Anaplasmaphagocytophilum is also found in Denmark (2); however, the distribution is unclear. Studies on Ixodes ricinus ticks have revealed the existence of other potential pathogens, among them Rickettsia helvetica and Bartonella spp. (3, S. Skarphedinsson et al., unpub, data). At the same time, increase in the incidence of TBE has been noted in neighboring countries like Germany, Poland, Lithuania, and Sweden (4). Changes in the distribution of TBE in Europe have been suggested to be related to climatic changes, and new foci have been predicted, some within Denmark (5). However, the role of climatic changes is unclear, and increased surveillance is needed to elucidate this in further detail. I. ricinus is the main vector of tickborne infections in Europe and the dominant tick in Denmark (>90%). Roe deer (Capreolus capreolus Capreolus capreolus see roe deer. ), an important host for I. ricinus ticks, have been used as sentinel animals to monitor tickborne infections in several studies, 2 of which have been performed in Denmark. In 1963, Freundt published a survey of TBE (6), and in 1994 Webster and Frandsen evaluated 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 of Borrelia burgdorferi Borrelia burg·dor·fe·ri n. A spirochete causing Lyme disease in humans. Borrelia burgdorferi The spirochete agent of Lyme disease, which contains several outer membrane proteins and a highly immunogenic flagellar in deer (7). In light of increasing tick density observed, as well as the finding of new pathogens in Denmark, reassessment is indicated (8). The aim of this study was to assess the seroprevalence and geographic distribution of TBE-complex virus, Borrelia burgdorferi, A. phagocytophilum, Bartonella quintana, and Bartonella henselae Bartonella henselae Rochalimaea henselae Infectious disease A slender, fastidious coccobacillary bacterium of the normal flora of cats associated with bacteremia, endocarditis, cat-scratch disease, bacillary angiomatosis, peliosis hepatis; it may affect by using roe deer as natural sentinels; at the same time, we evaluated prevalence of infection with A. phagocytophilum and R. helvetica by using polymerase chain reaction (PCR). Materials and Methods Sample Collection and Serologic Testing State forest rangers from the 25 Danish state forest districts were invited to participate during the regular hunting season of 2002 (May 15-July 15, 2002 [summer], and October 1, 2002-January 15, 2003 [fall]). They were asked to obtain blood samples from roe deer by cardiac puncture or from the thoracic cavity thoracic cavity or chest cavity Second largest hollow space of the body, enclosed by the ribs, vertebral column, and breastbone and separated from the abdominal cavity by the diaphragm. when dressing freshly killed animals in the field. For each animal, sex, age, and degree of tick infestation infestation /in·fes·ta·tion/ (-fes-ta´shun) parasitic attack or subsistence on the skin and/or its appendages, as by insects, mites, or ticks; sometimes used to denote parasitic invasion of the organs and tissues, as by helminths. was also noted. Blood collection kits were distributed to all state forest districts by mail, and blood samples were sent by mail to the laboratory. Because of limited amounts of material received from some districts, not all samples were available for all serologic tests. B. burgdorferi serologic tests were performed by using indirect immunofluorescence assay (IFA Immunofluorescent assay (IFA) A blood test sometimes used to confirm ELISA results instead of using the Western blotting. In an IFA test, HIV antigen is mixed with a fluorescent compound and then with a sample of the patient's blood. ). B. burgdorferi strain DK 6 was used as an antigen, and the conjugate conjugate /con·ju·gate/ (kon´jdbobr-gat) 1. paired, or equally coupled; working in unison. 2. a conjugate diameter of the pelvic inlet; used alone usually to denote the true conjugate diameter; see was fluorescein isothiocyanate (FITC FITC fluorescein isothiocyanate; used as a fluorescent label for proteins, especially antibodies. )-labeled rabbit anti-deer immunoglobulin (Ig) G (Kierkegaard & Perry Laboratories Inc, Guildford, UK). The cutoff point Cutoff point The lowest rate of return acceptable on investments. was 1:64. B. henselae and B. quintana serologic tests were performed by using IFA. Slides coated with Vero cells infected with B. henselae and B. quintana (Focus Technologies, Cypress, CA, USA) were used as antigen, and the conjugate was FITC-labeled rabbit anti-deer IgG (Kierkegaard & Perry Laboratories Inc). The cutoff point was 1:64. A. phagocytophilum serologic testing was performed by using IFA. Slides with HL-60 cells infected with a human isolate of A. phagocytophilum (Focus Technologies) were used as antigen, and FITC-labeled rabbit anti-deer IgG was used as conjugate. The cutoff point was 1:128. Slides were considered borderline positive when a definite-but-dim fluorescence equal to that observed for the positive control at its reference endpoint 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. was found. Moderate-to-intense fluorescence of the morula morula /mor·u·la/ (mor´u-lah) 1. the solid mass of blastomeres formed by cleavage of a zygote. 2. an inclusion body seen in circulating leukocytes in ehrlichiosis. was graded positive. TBE-complex virus serologic testing was performed at the Institute of 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 , University of Vienna History The University was founded on March 12, 1365 by Duke Rudolph IV and his brothers Albert III and Leopold III, hence the additional name "Alma Mater Rudolphina". After the Charles University in Prague, the University of Vienna is the second oldest university in Central , Austria. Samples were first tested by using hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. inhibition (HI) test. Positive samples were verified by using neutralization test neutralization test n. See protection test. . DNA Extraction, PCR, and Sequencing Total DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. was extracted from blood samples by using a QIAamp Blood kit (Qiagen, Albertslund, Denmark), according to manufacturer's instructions. Amplifications were performed in a Perkin Elmer GeneAmp PCR system 9600 (Perkin-Elmer Corp, Norwalk, CT, USA), and real-time PCR was performed in Bio-Rad iCycler iQ Quantitative thermal cycler (Bio-Rad, Herlev, Denmark). DNA amplification DNA amplification Molecular diagnostics Any method used to ↑ the copy number of a sequence of DNA. See Cycling probe technology, Gap LCR–gap ligase chain reaction, Gene amplification, NASBA–nucleic acid sequence-based amplification, PCR, was done in a 25-[micro]L reaction volume by using ReddyMix PCR Master Mix (ABgene, Epsom, United Kingdom), with 5 [micro]L of sample DNA in each reaction. Cycling conditions included initial 3 min of denaturation denaturation, term used to describe the loss of native, higher-order structure of protein molecules in solution. Most globular proteins exhibit complicated three-dimensional folding described as secondary, tertiary, and quarternary structures. at 96[degrees]C, followed by 39 cycles, each consisting of 15 s denaturation at 96[degrees]C, 15 s annealing annealing (ənēl`ĭng), process in which glass, metals, and other materials are treated to render them less brittle and more workable. at 58[degrees]C, and 15 s extension at 72[degrees]C. These 39 cycles were followed by an extension period of 3 min at 72[degrees]C. Real-time PCR was performed by using HotStartTaq Master Mix kit (Qiagen). Reaction volume was 25 [micro]L with 5 [micro]L sample DNA. Cycling conditions for Anaplasma real-time PCR included an initial activation of Taq polymerase at 95[degrees]C for 10 min, followed by 40 cycles, each consisting of 15 s denaturation at 95[degrees]C followed by 1 min annealing-extension at 60[degrees]C. R. helvetica real-time PCR included an initial activation of Taq polymerase at 95[degrees]C for 10 min followed by 45 cycles of 30 s denaturation at 95[degrees]C followed by 45 s annealing-extension at 52[degrees]C. Specimen processing, PCR setup, and amplification and detection procedures were all conducted in separate areas to minimize the potential for cross-contamination. Anaplasma infection was detected with primers that specifically target the 16S rRNA gene of the A. phagocytophilia genogroup (9): forward primer 5'-GGTACCYACAGAAGAAGTCC and reverse primer 5'-TAGCACTCATCGTTTACAGC. PCR products were detected on 3% agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. gels stained with ethidium bromide. If samples were found positive, a second real-time PCR was performed. Primers specific for the A. phagocytophilum msp2 gene were used (10): ApMSP2f (5'-ATGGAAGGTAGTGTTGGTTATGGTATT), ApMSP2r (5'-TTGGTCTTGAAGCGCTCGTA), and a TaqMan probe ApMSP2p-HEX (5'-TGGTGCCAGGGTTGAGCTTGAGATTG). Primers were labeled at the 5' and 3' ends with hexachloro-6-carboxy-fluorescein (HEX) and Black Hole Quencher quench tr.v. quenched, quench·ing, quench·es 1. To put out (a fire, for example); extinguish. 2. To suppress; squelch: (BHQ BHQ Biblia Hebraica Quinta (Hebrew Bible) BHQ Broken Hill, New South Wales, Australia - Broken Hill (Airport Code) BHQ Brent Hartman Billiard Cues ), respectively. R. helvetica infection was detected with primers that specifically target the 23S rRNA gene of R. helvetica: Rhf (5'-ATAGGGAGGAATTTGAAGGA) and Rhr (5'-GGTAATTTGTACGTCGATCC) and a TaqMan probe Rhpr-TR (5'-CGGAACACAGAACCGTAGCG). Primers were labeled at the 5' and 3' ends with Texas Red and BHQ, respectively. For quality control, negative and positive controls were included each time a PCR was performed. PCR products used for DNA sequencing were purified by using GFX GFX Graphic Effect(s) GFX Global Effects GFX Government Furnished Equipment GFX Graphics Driver GFX Graphics Link File GFX Geforce Fx GFX Graphic Effects PCR DNA and Gel Band purification kit (Amersham Pharmacia Biotech, Piscataway, NJ, USA). For DNA sequencing reaction, ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. Prism Big Dye Terminator v3.0 kit was used (Perkin Elmer, Applied Biosystems Division). Removal of unincorporated dye terminators was performed by using DyeEx kit (Qiagen) Samples were run on ABI 373A sequencer See MIDI sequencer. (music) sequencer - Any system for recording and/or playback of music via a programmable memory which stores music not as audio data, but as some representation of notes. (Perkin Elmer, Applied Biosystems Division). Sequences were compared with public domain database by using the Blast software. Sequences obtained are available in GenBank under accession nos. AY776165, AY776166, and AY776167. Statistical Analysis Data were analyzed by using STATA 8.2 (StataCorp LP, College Station, TX, USA). For analysis of seroepidemiologic results, Fisher exact test and the Mantel-Haenszel method were used. Values of p<0.05 were considered significant. Results A total of 237 blood samples from roe deer were collected from 22 of 25 state forest districts (Figure 1). Blood samples from 112 animals were collected in the summer hunting season and from 125 animals in the fall hunting season. The mean age of roe deer was 2.9 years (median 2.5, range 0.5-10 years, Table 1); 60% were bucks, 36% were does, 4% were not defined. This skewed distribution Skewed distribution Probability distribution in which an unequal number of observations lie below (negative skew) or above (positive skew) the mean. is due to the fact that hunters are only allowed to hunt bucks during the first hunting period in the summer. Only 7% of the roe deer were heavily infested in·fest tr.v. in·fest·ed, in·fest·ing, in·fests 1. To inhabit or overrun in numbers or quantities large enough to be harmful, threatening, or obnoxious: with ticks (defined as >100 engorged en·gorge v. en·gorged, en·gorg·ing, en·gorg·es v.tr. 1. To devour greedily. 2. To gorge; glut. 3. To fill to excess, as with blood or other fluid. v.intr. ticks/deer); 63% of these animals came from Zealand (p = 0.026). [FIGURE 1 OMITTED] B. burgdorferi and Bartonella spp. Seroprevalence was assessed on 227 samples. Of these, 83 (36.6%) had positive results on Borrelia IFA, but of these 23 (10%) were borderline positive. Significant regional difference was found in Borrelia 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. when the mainland of Jutland was compared to the islands (Funen, Zealand, Lolland Falster, Bornholm; Figure 1), 27.1% versus 46.7% (p = 0.003). Borrelia-positive roe deer were found in 19 of 22 forest districts evaluated. Three districts in the northern part of Jutland were negative (Fussingo, Thy, and Ulborg; Figure 1), but only 9 blood samples came from these 3 districts. No significant differences in Borrelia antibody prevalence were found for sex, age, and season. B. henselae and B. quintana seroprevalence was assessed on 227 samples. All samples were 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. (95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. [CI] 0%-1.6%) A. phagocytophilum Seroprevalence was assessed oi1 227 samples. Of these, 217 (95.6%) were positive and 19 were borderline positive (8%). No significant difference in seroprevalence was seen for age, sex, season, or region. Among 237 samples tested by PCR for A. phagocytophilum, 101 (42.6%) were positive in both 16S rRNA and msp2 PCR analysis. Only samples positive for both genes (16S rRNA and rasp2) were considered A. phagocytophilum positive. Four animals were PCR positive but had negative Anaplasma 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. results. Marked seasonal difference was found with 70 (62.5%) positive roe deer during the summer hunting season and 31 (24.8%) positive animals during the fall hunting season (p<0.0001) (Figure 2). Fewer animals were PCR positive in Jutland (39.6%) than on the islands (47.6%), and when adjusted for seasonal difference in sample collection, the difference was significant (p<0.05). A. phagocytophilum PCR-positive samples came from all 22 state forest districts (Table 2). Twenty-one samples from Jutland, Funen, Zealand, Falster, and Bornholm that were PCR positive for A. phagocytophilum were sequenced (GenBank accession no. AY776165) and revealed 100% homologies with known A. phagocytophilum sequences. Sequence variation was only encountered in 1 sample from Oxbol in Jutland (no. AY776166). No significant difference in sex or age for PCR-positive samples was found. Ten samples were found positive for Anaplasma genus on the primary PCR but negative on the more specific secondary PCR. Five of these samples were sequenced (no. AY776167); none was positive for A. phagocytophilum, but all had high homology homology (hōmŏl`əjē), in biology, the correspondence between structures of different species that is attributable to their evolutionary descent from a common ancestor. (99%) with a sequence amplified from I. ricinus ticks collected from humans in Italy and previously deposited in GenBank as Rickettsiales bacterium it86 (no. AF525482.1). [FIGURE 2 OMITTED] R. helvetica and TBE-complex Virus All 237 samples were tested by PCR for R. helvetica, but none were found positive (95% CI 0%-1.6%). Seroprevalence of TBE-complex virus was evaluated on 229 samples. Twenty samples (8.7%) were positive on the HI test. The verifying neutralization test was positive for 14 (6.1%) samples, but 4 could not be evaluated because of cell monolayer mon·o·lay·er n. 1. A film or layer one molecule thick formed at the interface between water and either oil or air by a substance such as a partially esterified fatty acid that contains both hydrophobic and hydrophilic groups in the same destruction, and 2 samples were not available for neutralization testing because of lack of material. Positive samples came from Bornholm (n = 6, 30%), Zealand and Falster (n = 3, 15%), and Jutland (n = 11, 55%) (Figure 3). Significant differences in seroprevalence could not be shown for sex or season, but TBE-complex virus--positive animals were significantly more common in the young adult--adult group than in the fawn--yearling group (p = 0.014). [FIGURE 3 OMITTED] Discussion In the present study, roe deer were used as sentinels. They are widely distributed throughout Denmark and outnumber other large wild animals WILD ANIMALS. Animals in a state of nature; animals ferae naturae. Vide Animals; Ferae naturae. . They play a central role in the life cycle of I. ricinus by feeding large numbers of the tick at all 3 life stages (12). Density of I. ricinus is strongly related to the abundance of roe deer (13,14). Roe deer are considered incompetent as reservoirs of Borrelia spp. (15); however, their central role in the life cycle of the tick and the fact that they can respond immunologically to Borrelia infection renders them useful as sentinels for borreliosis (16). The finding of a Borrelia seroprevalence of 36.6% is lower than that found in the study by Webster and Frandsen (7) from 1994 (52%), but in the previous study all roe deer samples came from Zealand, and when this regional difference is taken into account the difference is not significant (50% vs. 52%, p = 0.773). The regional differences found correlate well with the known tick density in Denmark (Figure 1). The lack of seropositive roe deer from 3 districts in northern Jutland may, however, be due to the low sample size from these districts. The role of ticks and roe deer in the transmission of Bartonella infections is still uncertain. Schouls et al. found that 60% of ticks collected from infested roe deer carried Bartonella spp. (17). B. henselae has also recently been found in ticks infesting humans in Italy (18), and B. quintana has been recovered from ticks in California (19). In 2001, McGill et al. found that 31% of elite orienteers (participants in the competitive sport of finding the fastest route between defined checkpoints with only a compass and map), a high-risk group high-risk group Epidemiology A group of people in the community with a higher-than-expected risk for developing a particular disease, which may be defined on a measurable parameter–eg, an inherited genetic defect, physical attribute, lifestyle, habit, for tick bites, were seropositive to Bartonella elizabethae (20). The recent finding of patients in the United States with Borrelia burgdorferi, and B. henselae co-infection also supports the idea that ticks play a role as a vector for Bartonella spp. (21). Our finding of no B. hensela--or B. quintana--seropositive roe deer does not support this idea. Whether roe deer are seropositive to other Bartonella spp., like B. elizabethae, remains to be evaluated, as well as the human pathogenic potential of B. elizabethae. Roe deer are thought to be competent reservoirs of A. phagocytophilum (22), and a high seroprevalence has been found in previous studies in Europe. We found a seroprevalence of 95.6%, which is similar to findings from Norway (96%) and Slovenia (94%) (23,24). Larger variation has been found in the number of PCR-positive roe deer, from 12.5% in Czech Republic to 85.6% in Slovenia (24,25). Although differences in PCR protocols may to some extent explain this difference, the seasonal variation in the number of PCR-positive roe deer, as shown in this study, may also play a role (Figure 2). As the probability of roe deer being rickettsemic changes through the season, serology Serology The division of biological science concerned with antigen-antibody reactions in serum. It properly encompasses any of these reactions, but is often used in a limited sense to denote laboratory diagnostic tests, especially for syphilis. represents a better surveillance tool than PCR. The high proportion of roe deer that are bacteremic bac·te·re·mi·a n. The presence of bacteria in the blood. bac  te·re throughout the tick season and the
importance of roe deer in the life cycle of I. ricinus may indicate that
roe deer are the main reservoir of A. phagocytophilum in Europe.Although regional variation was found in the number of PCR-positive animals, A. phagocytophilum is widespread in Denmark and seems correlated to tick and roe deer density. Limited variation was found among the 16S 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 sequences analyzed. Reliable differentiation of possible A. phagocytophilum strains in Denmark would be better accomplished by sequencing genes with higher variation than the conserved sequence of 16S RNA; among better candidates are the Ank-gene and the groESL operon. Further characterization of European strains of A. phagocytophilum is needed; the finding of a high A. phagocytophilum prevalence in roe deer compared to the low number of human anaplasmosis cases reported in Europe may indicate the existence of strains less virulent or nonpathogenic to humans (26). The finding of sequences in roe deer blood that are related to sequences previously amplified only from ticks in Italy (It86-Belluno) is of interest and should be studied further (27). Whether this organism is pathogenic to roe deer or can cause human infection remains to be elucidated. The accuracy of diagnostic assays used is critical to any pathogen surveillance, and the potential for serologic cross-reaction is an important consideration. Recently R. helvetica has been found in ticks from Bornholm and Jutland, and a seroprevalence of 12.5% was described in high-risk groups in northern Jutland (3, S. Skarphedinsson et al., unpub, data). Even though it is not phylogenetically phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history: a phylogenetic classification of species. close to A. phagocytophilum, and even though serologic cross-reactivity has not been reported to date, it is the only other Rickettsia species reported in Denmark. We therefore looked for R. helvetica in roe deer, but found no PCR-positive deer. The explanation for this finding may be that roe deer are not competent as reservoirs or that the bacteremic phase is very short. Another possibility is that R. helvetica has a very focal distribution or is even disappearing from Denmark, as the seroprevalence study of Nielsen et al. showed a gradual decrease in seroprevalence from 29% in 1997 to 0% in 2000 (3). Tickborne encephalitis was the first tickborne infection to be recognized in Denmark. During the years 1958-1962, E.A. Freundt did a survey for TBE-complex virus using human and animal sera from all parts of Denmark. He found, using both HI, 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 , and complement fixation tests, that TBE-complex virus was present only on the island of Bornholm. He found an overall seroprevalence of 8.6% in Danish roe deer (the local seroprevalence on Bornholm was 83%) (6). Since then a very limited surveillance of TBE has since been carried out in Denmark. Recent increases in TBE cases in neighboring Sweden have been suggested to be related to climatic changes (28), as milder climate has been followed by a northern shift in the distribution limit of I. ricinus as well as a general increase in tick density (29). However, the variable patterns of changing TBE case numbers in Europe indicate that changing climate is not the sole causal factor causal factor Medtalk A factor linked to the causation of a disease or health problem . Changes in the densities of hosts for ticks and sociopolitical so·ci·o·po·li·ti·cal adj. Involving both social and political factors. sociopolitical Adjective of or involving political and social factors circumstances may play a role as well (30). TBE has also been suggested by the World Health Organization-European Centre for Environment and Health working group on the early implication of climatic change to be a priority infection for surveillance during climatic change (31) because of the fragile and temperature-dependent natural cycle of TBE virus. Using geographic information systems and remote sensing, Randolph et al. have predicted the present as well as future distribution of TBE in northern Europe with changing climate (32). These predictions seem to correlate well with the findings in our study of a change in the distribution of TBE-complex virus in Denmark. A strict correlation between TBE-complex virus-positive areas and tick and roe deer density was, on the other hand, not found. However, recent studies on ticks in Bornholm have shown that not only the Western European subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. of TBE-complex virus is to be found. Louping ill louping ill an acute encephalomyelitis affecting mostly sheep and red grouse (Lagopus scoticus), but occasionally other domestic animals and humans, caused by a flavivirus and transmitted by Ixodes ricinus. virus, another flavivirus belonging to the TBE antigenic complex, is now also found in Bornholm (33). Further studies are needed to clarify the possible role of serologic cross-reactivity between these 2 closely related viruses. Although we found the same overall TBE seroprevalence now as in 1962, the local seroprevalence in Bornholm is significantly lower than before (31.6% vs. 83%, p = 0.001). Whether the emergence of Louping ill virus plays a part in this decrease is of interest. The fact that only roe deer 24 months of age or older were TBE-complex virus-seropositive may indicate that although TBE-complex virus has emerged in new areas in Denmark, the infection is still rare and focal in distribution. Using roe deer as sentinels, we have shown that A. phagocytophilum is now widely distributed in Denmark and that roe deer may be the main reservoir. Also, while Borrelia prevalence has remained stable, the distribution of TBE-complex virus has changed, which supports the predicted effect of climatic change on vectorborne infections in northern Europe. In a shifting climate, continued long-term monitoring of tickborne infections is of importance. Healthcare providers should also be aware of the dynamic changes in distribution and prevalence of these infections when treating a patient with compatible illness, specifically after exposure to ticks.
Table 1. Prevalence of Borrelia, Anaplasma phagocytophilum, and
tickborne encephalitis (TBE)-complex virus by age group *
Borrelia positive
Age group n (n = 227) (%)
Fawns ([less than or equal to] 11 mo) 19 4/17 (23.5)
Yearlings (12-23 mo) 37 13/33 (39.4)
Young adults 56 13/52 (25.0)
(24-35 mo)
Adults ([greater than or equal to] 36 mo) 100 42 (42.0)
Age unknown 25 11 (44.0)
Anaplasma positive
Age group (n = 227) (%)
Fawns ([less than or equal to] 11 mo) 17/17 (100)
Yearlings (12-23 mo) 32/35 (91.4)
Young adults 49/51 (96.1)
(24-35 mo)
Adults ([greater than or equal to] 36 mo) 94/99 (94.9)
Age unknown 25 (100)
A. phagocytophilum PCR
Age group positive (n = 237) (%)
Fawns ([less than or equal to] 11 mo) 8 (42.1)
Yearlings (12-23 mo) 14 (37.8)
Young adults 26 (46.4)
(24-35 mo)
Adults ([greater than or equal to] 36 mo) 47 (47.0)
Age unknown 6 (24.0)
TBE-complex virus
Age group positive (n = 229) (%)
Fawns ([less than or equal to] 11 mo) 0
Yearlings (12-23 mo) 0
Young adults 7 (12.5)
(24-35 mo)
Adults ([greater than or equal to] 36 mo) 9 (9.0)
Age unknown 4 (16.0)
* Because material received from some state forest districts was
limited, not all samples were available for all serologic tests. Where
not equal to n, denominator gives actual number of samples tested. PCR,
polymerase chain reaction.
Table 2. Regional distribution of Borrelia-, Anaplasma
phagocytophilum-, and tickborne encephalitis (TBE)-complex
virus-positive roe deer *
Region + state forest % A.
district n % Borrelia Phagocytophilum
positive ([dagger]) positive *
Jutland
Abenra 14 21.4 100
Buderupholm 7 71.4 100
Feldborg 7 25.0 (n = 4) 80.0 (n = 5)
Fussingo 2 0 50.0
Grasten 10 50.0 88.8 (n = 9)
Haderslev 26 16.0 (n = 25) 91.7 (n = 24)
Lindet 8 25.0 100
Oxbol 13 46.2 100
Palsgard 15 9.1 (n = 11) 90.9 (n = 11)
Randbol 12 16.7 100
Silkeborg 5 60.0 100
Thy 5 0 80.0
Ulborg 2 0 100
Funen
Fyn 12 41.7 100
Zealand-Lolland-Falster
Falster 17 46.7 (n = 15) 100 (n = 16)
Frederiksborg 17 52.9 88.2
Jaegersborg 8 50.0 100
Kronborg 9 55.6 100
Kobenhavn 15 40.0 100
Odsherred 5 80.0 100
Tisvilde 7 42.9 85.7
Bornholm 19 36.8 100
Region unknown 2
Region + state forest
district % A. Phagocytophilum % TBE-complex virus
PCR positive HI-test positive
Jutland
Abenra 21.4 14.3
Buderupholm 30.0 0
Feldborg 14.3 0
Fussingo 50.0 0
Grasten 50.0 10
Haderslev 61.5 16.0
Lindet 50.0 12.5
Oxbol 53.8 0
Palsgard 20.0 9.1
Randbol 8.3 8.3
Silkeborg 80.0 20.0
Thy 20.0 0
Ulborg 50.0 0
Funen
Fyn 50.0 0
Zealand-Lolland-Falster
Falster 41.2 6.3
Frederiksborg 52.0 5.8
Jaegersborg 25.0 12.5
Kronborg 66.6 0
Kobenhavn 46.6 0
Odsherred 80.0 0
Tisvilde 14.3 0
Bornholm 46.2 31.6
Region unknown
* PCR, polymerase chain reaction; HI, hemagglutination inhibition.
([dagger]) Because the amount of material received from some state
forest districts was limited, not all samples were available for
Borrelia and Anaplasma serologic testing. Where not all samples were
tested, n is indicated in parentheses.
Acknowledgments We are grateful to the Danish Forest and Nature Agency as well as all participating rangers and hunters from the state forest districts for support. We also thank B.F. Lyholm and H. Hansen for technical assistance with the PCR, sequencing, and IFA. We gratefully acknowledge Institute for Virology, Vienna, Austria, for support in TBE analysis. This study was supported by grants from Fyns Amts Forskningspulje, Det Sundhedsvidenskabelige Fakultets Forskningspulje, University of Southern Denmark As a national institution the University of Southern Denmark (SDU) comprises five faculties – Humanities, Science, Engineering, Social Sciences and Health Sciences totaling 32 departments, 11 research centers and a university library. , Baxter Denmark. Results of this paper have in part been presented at the 14th European Congress of Clinical Microbiology and Infectious Diseases, Prague, Czech Republic, May 1-4, 2004. References (1.) 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Available from http://www.euro.who.int/ document/gch/climate03.pdf (32.) Randolph SE, Rogers DJ. Fragile transmission cycles of tick-borne encephalitis virus tick-borne encephalitis virus n. An arbovirus of the genus Flavivirus that occurs in two subtypes, Central European and Eastern, causing two forms of encephalitis; it is transmitted by ticks. may be disrupted by predicted climate change. Proc Biol Sci. 2000;267:1741-4. (33.) Jensen PM, Skarphedinsson S, Semenov A. Densities of the tick (Ixodes ricinus) and coexistence of the Louping ill virus and tick borne encephalitis on the island of Bornholm [article in Danish]. Ugeskr Laeger. 2004;166:2563-5. Sigurdur Skarphedinsson, * Per M. Jensen, ([dagger]) and Kare Kristiansen ([double dagger]) * University of Southern Denmark, Odense, Denmark; ([dagger]) The Royal Veterinary and Agricultural University, Fredriksberg, Denmark; and ([double dagger]) Medical Public Health Office, Ronne, Denmark Dr. Skarphedinsson is a physician working at the Clinical Microbiology Research Unit, Institute of Clinical Research, University of Southern Denmark, and a board member of the Center for Health and Biodiversity, Denmark. His research interests include the epidemiology of zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis and vectorborne infections. Address for correspondence: Sigurdur Skarphedinsson, Department of Clinical Microbiology, Winsloewparken 21,2, DK-5000 Odense C, Denmark; fax: 45-6541-4785; email: siggi@inet.uni2.dk |
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