Human alveolar echinococcosis after fox population increase, Switzerland.We analyzed databases spanning 50 years, which included retrospective alveolar alveolar /al·ve·o·lar/ (al-ve´o-lar) [L. alveolaris ] pertaining to an alveolus. al·ve·o·lar adj. Relating to an alveolus. echinococcosis Echinococcosis Definition Echinococcosis (Hydatid disease) refers to human infection by the immature (larval) form of tapeworm, Echinococcus. One of three forms of the Echinococcus spp., E. (AE) case-finding studies and databases of the 3 major centers for treatment of AE in Switzerland. A total of 494 cases were recorded. Annual incidence of AE per 100,000 population increased from 0.12-0.15 during 1956-1992 and a mean of 0.10 during 1993-2000 to a mean of 0.26 during 2001-2005. Because the clinical stage of the disease did not change between observation periods, this increase cannot be explained by improved diagnosis. Swiss hunting statistics suggested that the fox population increased 4-fold from 1980 through 1995 and has persisted at these higher levels. Because the period between infection and development of clinical disease is long, the increase in the fox population and high Echinococcus multilocularis Echinococcus multilocularis is a cyclophyllid cestode that, like Echinococcus granulosus, produces hydatid disease in many mammals, including rodents and humans. Unlike E. prevalence rates in foxes in rural and urban areas may have resulted in an emerging epidemic of AE 10-15 years later. ********** Human alveolar echinococcosis (AE), a hepatic disorder that resembles liver cancer Liver Cancer Definition Liver cancer is a relatively rare form of cancer but has a high mortality rate. Liver cancers can be classified into two types. , is a highly aggressive and lethal zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis infection caused by the larval stage larval stage - Describes a period of monomaniacal concentration on coding apparently passed through by all fledgling hackers. Common symptoms include the perpetration of more than one 36-hour hacking run in a given week; neglect of all other activities including usual basics like of the fox tapeworm tapeworm, name for the parasitic flatworms forming the class Cestoda. All tapeworms spend the adult phase of their lives as parasites in the gut of a vertebrate animal (called the primary host). , Echinococcus multilocularis (1). The parasite is widely distributed Adj. 1. widely distributed - growing or occurring in many parts of the world; "a cosmopolitan herb"; "cosmopolitan in distribution" cosmopolitan bionomics, environmental science, ecology - the branch of biology concerned with the relations between organisms in the Northern Hemisphere; the disease-endemic area stretches from 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. through Europe to central and east Asia, including northern parts of Japan (1-3). Parasite eggs are shed into the environment in the feces of canid definitive hosts that harbor the adult parasite in their intestines. In addition, some of these eggs contaminate con·tam·i·nate v. 1. To make impure or unclean by contact or mixture. 2. To expose to or permeate with radioactivity. con·tam·i·nant n. the fur of infected definitive hosts. Humans and intermediate host animals acquire the infection by ingesting E. multilocularis eggs in contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. food or water or by having close physical contact with infected foxes, dogs, or host feces. In Europe, E. multilocularis exists predominantly in a cycle of wild animals WILD ANIMALS. Animals in a state of nature; animals ferae naturae. Vide Animals; Ferae naturae. that includes red foxes (Vulpes vulpes Vulpes vulpes see red fox. ) as main definitive hosts and several vole vole, name for a large number of mouselike rodents, related to the lemmings. Most range in length from 3 1-2 to 7 in. (9–18 cm) and have rounded bodies with gray or brown coats, blunt muzzles, small ears concealed in the long fur, and short tails. species as intermediate hosts. In the United States and Canada, the coyote coyote (kī`ōt, kīō`tē) or prairie wolf, small, swift wolf, Canis latrans, native to W North America. It is found in deserts, prairies, open woodlands, and brush country; it is also called brush wolf. (Canis latrans) has also been shown to be a suitable host for this parasite; in Arctic regions, the artic artic Noun Brit informal an articulated lorry fox (Alopex lagopus Alopex lagopus see arctic fox. ) is the principal definitive host (1). Domestic dogs are also highly susceptible definitive hosts (4); in some areas, such as Alaska (5), People's Republic of China (6), and Europe (7), they can play an additional or even the dominant role as an infection source for humans. The documented area of E. multilocularis endemicity in Europe has recently increased (3, 7, 8). However, whether this increase results from a true extension of the geographic range or simply increased detection in populations of wildlife not previously investigated is still unclear (1). Similarly, new distribution ranges have been reported in North America. In addition to being found in the tundra zone of Alaska and Canada, the parasite has now been recorded in 3 Canadian provinces and an additional 11 contiguous US states (9). Important changes have occurred in the population dynamics of foxes in central Europe. Between 1970 and the mid-1980s, fox populations decreased during an epidemic of 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 . After the successful establishment of anti-rabies vaccination programs, fox populations increased almost 4-fold (10). At the same time, fox habitat extended into urban areas and is still progressing. For example, large fox populations have now become established in all major cities and towns in Switzerland. In the largest city, Zurich, the number of foxes shot or found dead within the city boundaries increased 20-fold since 1985 (10). The reasons for the increase in the fox populations have been attributed to ecologic factors, the successful vaccination campaign against fox rabies, and the increase in anthropogenic an·thro·po·gen·ic adj. 1. Of or relating to anthropogenesis. 2. Caused by humans: anthropogenic degradation of the environment. food supplies (7,10). In the core European area for AE, which includes Switzerland as well as neighboring France and Germany, high prevalence rates (35% 65%) of E. multilocularis in foxes have been consistently recorded (3, 7, 8, 11). However, several studies have shown that the prevalence rates have been increasing in certain regions. For example, recent parasite density estimates in southwestern Germany were 10x higher than estimates before 1990 (3,8), and unexpectedly high prevalence rates in several urban fox populations have been reported (7). The combination of increased fox populations and increased parasite prevalence within these populations has led to a considerable increase in the overall parasite biomass per surface unit. A question of major public health importance in central Europe is whether the growing fox populations that have high prevalence of infection and the colonization of densely populated urban areas by foxes could increase risk for transmission of AE to humans and lead to an increase of clinical cases. Until 2000, no statistically significant increase in AE had been recorded in Switzerland (1). We report countrywide annual incidence rates of human AE in Switzerland in recent years (1993-2005) and compare them with incidence data for previous years (1956-1992). The European Echinococcosis Registry (11) gives summary data for 559 cases of AE from central Europe between 1988 and 2000, which includes data from 112 of the Swiss cases in the present report. The incidence data were related to the fox population dynamics. Because Switzerland has been consistently collecting comprehensive data on AE in humans for 50 years, conditions for such long-term assessments are favorable. Methods We retrieved retrospective data of extensive AE case-finding studies covering all of Switzerland for 1956-1992 (Table). We included additional data from the Swiss National Center for Echinococcosis, collected when echinococcosis was a reportable disease re·port·a·ble disease n. See notifiable disease. (1987-1996), and data for 1996-2005, collected from databases of the University Hospitals of Zurich, Berne, and Lausanne, the 3 major centers for AE treatment in Switzerland. Furthermore, we analyzed serodiagnostic data compiled from the 3 main diagnostic laboratories for parasitic diseases in Switzerland that offer reliable (and methodically comparable) immunodiagnosis im·mu·no·di·ag·no·sis n. pl. im·mu·no·di·ag·no·ses Diagnosis of disease based on antigen-antibody reactions in the blood serum. Also called serodiagnosis. of human AE (Institutes of Parasitology Parasitology The scientific study of parasites and of parasitism. Parasitism is a subdivision of symbiosis and is defined as an intimate association between an organism (parasite) and another, larger species of organism (host) upon which the parasite is , Universities of Zurich and Bern, Swiss Tropical Institute The Swiss Tropical Institute (STI, also known as Institut Tropical Suisse and Schweizerisches Tropeninstitut) is an Associated Institute of the University of Basel. It was founded in 1943 by Professor Rudolf Geigy as a public organization, with support from the Swiss Federal in Basel). Cases that were diagnosed primarily on the basis of serologic testing results were further assessed by sending questionnaires to involved family doctors or by conducting retrospective analysis of the patients' history obtained from the treating hospitals. Inclusion criteria were as applied previously (11). These were 1) diagnosis of AE by positive, species-specific serologic testing (15), 2) AE-characteristic imaging findings, and 3) if available, AE-characteristic histopathologic findings and species-specific molecular analysis by PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) . 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. persons who lacked characteristic imaging features or histologic or molecular diagnosis were excluded from the study. All data were entered by using only personal initials, birth date, and sex; patients remained anonymous. Data were collected in a single database (Microsoft Excel; Microsoft Corp., Redmond, WA, USA) to prevent multiple counting of patients. For cases that occurred during 1993-2005, for which data on the clinical records were available, we used the PNM PNM Public Service Company of New Mexico PNM People's National Movement (Trinidad) PNM Perpustakaan Negara Malaysia (National Library, Malaysia) PNM Price Negotiation Memorandum (primary, neighboring, metastasis metastasis /me·tas·ta·sis/ (me-tas´tah-sis) pl. metas´tases 1. transfer of disease from one organ or part of the body to another not directly connected with it, due either to transfer of pathogenic microorganisms or to ) staging system Staging system A system based on how far the cancer has spread from its original site, developed to help the physician determine how best to treat the disease. Mentioned in: Neuroblastoma , specifically, location and extension of the primary lesion, involvement of neighboring organs, and presence or absence of metastasis (16). We determined the stage of disease (stages I-IV) by using this PNM system. Stages I and II are more likely to represent subclinical subclinical /sub·clin·i·cal/ (sub-klin´i-k'l) without clinical manifestations. sub·clin·i·cal adj. Not manifesting characteristic clinical symptoms. Used of a disease or condition. disease and are often diagnosed by chance. Such cases, if detected early, are more amenable to curative resection. Patients with PNM stage III or IV are more likely to have advanced clinical disease. They have more limited treatment options, such as individualized in·di·vid·u·al·ize tr.v. in·di·vid·u·al·ized, in·di·vid·u·al·iz·ing, in·di·vid·u·al·iz·es 1. To give individuality to. 2. To consider or treat individually; particularize. 3. interventional measures and lifelong chemotherapy (17). The stage of cases diagnosed during 1993-2000 was compared with stage of cases diagnosed during 2001-2005 by converting the stage to a score. For example, patients with stage I disease were scored as 1 and those with stage IIIb disease were scored as 3.5. To determine whether earlier or later diagnosis during different periods might partly account for any trend in the change of incidence, the mean score of cases diagnosed during 1993-2000 was compared with mean score of those diagnosed during 2001-2005. PNM scores were available for 50% (51 cases) of the 2001-2005 cases and for 40 (68%) of the 1993-2000 cases. For 2001-2005, the average age of case-patients with available PNM scores was 54 years (SD 17 years). This average did not significantly differ from the average of 50 years (SD 18 years) of case-patients with PNM scores for 1993-2000 (p = 0.19, Student t test). Likewise, the proportion of male patients with scores for 2001-2005 (37%) did not significantly differ from the proportion of male patients with scores for 1993-2000 (44%) (p = 0.35, Fisher exact test). Therefore, we found no evidence of bias due to incomplete data. We retrieved data regarding fox population sizes from the Swiss federal hunting statistics (www.wild.unizh.ch/ jagdst). These data, based on annual hunting numbers, indicate trends over a long period of time (18). Human population data for Switzerland originated from the Swiss Federal Statistical Office (www.bfs.admin.ch). To perform our statistical calculations, we used Microsoft Excel. Differences in human incidence rates and differences in numbers of reported foxes were analyzed by [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. ] test for trend. Proportions of male and female patients and the proportion of patients who had radical liver resection were analyzed by [chi square] test. Data for PNM scores were tested for normality and compared by using the Student t test. To smooth out annual fluctuations and better visualize longer term trends, we present data for number of foxes and incidence of human AE cases as 5-year moving averages. Results A total of 494 cases of human AE were diagnosed in Switzerland during 1956-2005. The mean age at time of diagnosis (54 years, range 12-89) did not change significantly over time (Table). The numbers of male and female patients were similar, although the trend was toward a decreasing proportion of male patients over the observation period. Male patients accounted for 53%-54% of patients during 1956-1983 compared with 43%-46% during 1984-2005 (p<0.05) (Table). The incidence of human AE during the observation period is shown in the Figure. The highest annual incidence per 100,000 was recorded in 2003 (0.38; 28 new cases); the lowest, in 1996 (0.04; 3 new cases). The mean annual incidence per 100,000 was 0.10 during 1993-2000 and increased to 0.26 during 2001-2005 (p<0.01) (Figure, Table). The estimated fox population increased [approximately equal to] 4-fold during 1984-1993 (Figure) (p<0.001). [FIGURE OMITTED] The mean PNM score for cases diagnosed during 1993-2000 was 2.41 (SD 1.3), which was not significantly different from the mean PNM score of 2.44 (SD1.2) for cases diagnosed during 2001-2005. The proportion of patients who had a radical liver resection was highest during 1996-2000 (75.3%) and lowest during 1991-1995 (37.5%) and 2001-2005 (54.9%) (p<0.001). Discussion The incidence of human AE in Switzerland has exhibited 2 trends during the past 50 years. After a slow but steady decline during 1956-1999, incidence has significantly increased since the year 2000 (Figure). A reasonable explanation for this finding may be the urbanization of the E. multilocularis cycle, which has resulted in an increase in the number and proportion of infected urban foxes in areas with high human populations, thereby increasing the infection risk for the human population (7). The increase of the fox population density started in [approximately equal to] 1985, some 10-15 years before the increased numbers of human AE cases (Figure). This temporal delay is consistent with the suggested latent or asymptomatic period of 5-15 years before development of clinically apparent AE in humans (19). Improved diagnostic accuracy, due to modern imaging technologies such as computerized tomography (20), is unlikely to account for this increase. Such improvements in diagnostic accuracy would be expected to lead to earlier detection with a shift to PNM stages I and II at the time of diagnosis, but such a trend has not been recorded. In addition, earlier, more local investigations have already indicated an increase in AE 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. in defined human populations at risk in central Europe (21,22) without a concomitant increase in clinical AE cases. An increase in the rate of AE seropositivity that precedes that of clinical AE is therefore consistent with increased exposure and a temporally delayed rise in the number of clinical cases. The use of foxes recorded in hunting statistics or hunting indices as a measure of the fox population is susceptible to bias and should be used only to describe trends from large areas (>1,000 [km.sup.2]) over long periods ([greater than or equal to] 5 years) (18). For this reason, the temporal trends in the size of the fox population were estimated by using hunting returns compiled for 50 years for the entire territory of Switzerland (42,000 [km.sup.2]). Therefore, we can conclude that the incidence of human AE appears to be increasing in Switzerland and that this increase was preceded 10 years earlier by a parallel increase and urbanization of the fox population. The potential extent of this emerging epidemic of human AE cannot be predicted. Future trends will depend on the intensity of present and future contamination of the environment with E. multilocularis eggs as well as on the number of susceptible persons exposed to the parasite. In this respect, the human AE epidemic appears analogous to that of human variant Creutzfeldt-Jakob disease Creutzfeldt-Jakob disease: see prion. Creutzfeldt-Jakob disease or CJD Rare fatal disease of the central nervous system. It destroys brain tissue, making it spongy and causing progressive loss of mental functioning and motor control. , for which predictions of future disease trends have been hampered by uncertain knowledge of incubation periods and unknown relationships between the risk for disease and host factors (23,24). Nevertheless, the temporal proliferation of E. multilocularis biomass in the main definitive host has increased the infection pressure for a large part of the human population in Switzerland. Likewise, other susceptible canid species involved in the life cycle of the parasite could present additional threats, in Europe and elsewhere. Within the past decade, for example, coyotes in the United States have become established in suburban areas with moderate to dense human populations (25). Because this species is a suitable definitive host of E. multilocularis (9), risk for transmission to humans in the United States and Canada may increase markedly. In conclusion, public health authorities in echinococcosis-endemic areas should establish coordinated systems of continuous surveillance and risk assessment, combined with measures to reduce illness and death from AE in human populations (1). Furthermore, new control strategies, including strategic deworming of foxes and other wild canids by using anthelminthic Anthelminthic (also spelled anthelmintic) A type of drug or herbal preparation given to destroy parasitic worms or expel them from the body. Mentioned in: Dysentery, Trichinosis anthelminthic anthelmintic. baiting options, should be further evaluated and developed. Such strategies should preferably target suburban areas that have high human and wild canid population densities (7). References (1.) Eckert J, Deplazes P. Biological, epidemiological, and clinical aspects of echinococcosis, a zoonosis Zoonosis Definition Zoonosis, also called zoonotic disease refers to diseases that can be passed from animals, whether wild or domesticated, to humans. of increasing concern. Clin Microbiol Rev. 2004; 17:107-35. (2.) McManus DP, Zhang W, Li J, Barley PB. Echinoeoccosis. Lancet. 2003 ;362:1295-304. (3.) Jenkins D J, Romig T, Thompson RCA See RCA connector and video/TV history. . Emergence/re-emergence of Echinococcus spp Echinococcus spp A genus of small taeniid tapeworms with 2–5 segments in adults–found in the definitive carnivore hosts–dogs, foxes; echinococcal larvae breed within cysts which develop in the liver, brain or elsewhere in the intermediate .--a global update. Int J Parasitol. 2005;35: 1205-19. (4.) Kapel CMO CMO See: Collateralized mortgage obligation CMO See collateralized mortgage obligation (CMO). , Torgerson PR, Thompson RCA, Deplazes R Reproductive potential of Echinococcus multilocularis in experimentally infected foxes, dogs, raccoon dogs, and cats. Int J Parasitol. 2006;36:79-86. (5.) Rausch RL, Wilson JF, Schantz PM. A programme to reduce the risk of infection by Echinococcus multilocularis: the use of praziquantel praziquantel /pra·zi·quan·tel/ (pra?zi-kwahn´t'l) a broad-spectrum anthelmintic used for the treatment of a wide variety of fluke and tapeworm infections. pra·zi·quan·tel n. to control the cestode cestode: see Platyhelminthes; tapeworm. in a village in the hyperendemic region of Alaska. Ann Trop Med Parasitol. 1990;84:239-50. (6.) Craig PS. Epidemiology of human alveolar echinococcosis in China. Parasitol Int. 2006;55:S221-5. (7.) Deplazes P, Hegglin D, Gloor S, Romig T. Wilderness in the city: the urbanization of Echinococcus multilocularis. Trends Parasitol. 2004;20:77-84. (8.) Romig T. Spread of Echinococcus multilocularis in Europe? In: Craig P, Pawlowski Z, editors. Cestode zoonosis: echinococcosis and cysticercosis cysticercosis /cys·ti·cer·co·sis/ (sis?ti-ser-ko´sis) infection with cysticerci. In humans, infection with the larval forms of Taenia solium. cys·ti·cer·co·sis n. . Amsterdam: IOS (1) (Internetwork Operating System) An operating system from Cisco that is the primary control program used in its routers. IOS is widely used and robust system software that supports the common functions of all products under Cisco's CiscoFusion architecture. Press; 2002. p. 65-80. (9.) Storandt ST, Virchow DR, Dryden MW, Hygnstrom SE, Kzacos KR. Distribution and prevalence of Echinococcus multilocularis in wild predators in Nebraska, Kansas, and Wyoming. J Parasitol. 2002;88:421-2. (10.) Gloor S, Bontadina F, Hegglin D, Deplazes P, Breitenmoser U. The rise of urban fox populations in Switzerland. Journal of Mammalian Biology. 2001;66:155-64. (11.) Kern P, Bardonnet K, Renner E, Auer H, Pawlowski Z, Ammann RW, et al. European Echinococcosis Registry: human alveolar echinococcosis, Europe, 1982-2000. Emerg Infect Dis. 2003;9:343-9. (12.) Drolshammer I, Wiesmann E, Eckert J. Human echinococcosis in Switzerland during the years 1956-1969 [in German]. Schweiz Med Wochenschr. 1973;103:1386-9. (13.) Gloor B. Echinokokkose beim Menschen in der Schweiz 1970-1983. Dissertation, University of Zurich History The University of Zurich was founded in 1833 with existing colleges of theology (founded by Huldrych Zwingli in 1525), law and medicine merged together with a new faculty of Philosophy. . 1988. (14.) Eckert J, Jacquier P, Baumann D, Raeber PA. Human echinococcosis in Switzerland, 1984-1992 [in German]. Schweiz Med Wochenschr. 1995;125:1989-98. (15.) Gottstein B, Jacquier P, Bresson-Hadni S, Eckert J. Improved primary immunodiagnosis of alveolar echinococcosis in humans by an 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. using the Em2plus antigen. J Clin Microbiol. 1993;31:373-6. (16.) Kern P, Wen H, Sato N, Vuitton DA, Gruener B, Shao Y, et al. WHO classification of alveolar echinococcosis: principles and application. Parasitol Int. 2006;55:S283-7. (17.) Bresson-Hadni S, Delabrousse E, Blagosklonov O, Bartholomot B, Koch S, Miguet JP, et al. Imaging aspects and non-surgical interventional treatment in human alveolar echinococcosis. Parasitology International. 2006;55:S267-72. (18.) Eckert J, Conraths FJ, Tackman K. Echinococcosis: an emerging or re-emerging zoonosis? Int J Parasitol. 2000;30:1283-94. (19.) Ammann RW, Eckert J. Cestodes. Echinococcus Echinococcus /Echi·no·coc·cus/ (e-ki?no-kok´us) a genus of small tapeworms, including E. granulo´sus, usually parasitic in dogs and wolves, whose larvae (hydatids) may develop in mammals, forming hydatid tumors or cysts chiefly in . Gastroenterol Clin North Am. 1996;25:655-89. (20.) Reuter S, Nussle K, Kolokythas O, Haug U, Rieber A, Kern P, et al. Alveolar liver echinococcosis: a comparative study of three imaging techniques. Infection. 2001 29: l19-25. (21.) Gottstein B, Saucy sauc·y adj. sauc·i·er, sauc·i·est 1. a. Impertinent or disrespectful. b. Impertinent in an entertaining way; impossible to repress or control. 2. F, Deplazes P, Rcichen J, Demierre G, Busato A, et ah Is high prevalence of Echinococcus multilocularis in wild and domestic animals associated with disease incidence in humans? Emerg Infect Dis. 2001;7:408-12. (22.) Romig T, Kratzer W, Kimmig P, Frosch M, Gaus W, Flegel WA, et al. An epidemiologic survey epidemiologic survey, n See research, epidemiologic survey. of human alveolar echinococcosis in southwestern Germany. Romerstein Study Group. Am J Trop Med Hyg. 1999;61:566-73. (23.) Valleron AJ, Boelle PY, Will R, Cesbron JY. Estimation of epidemic size and incubation time based on age characteristics of vCJD in the United Kingdom. Science. 2001;294:1726-8. (24.) Medley GF. Epidemiology. Predicting the unpredictable. Science. 2001;294:1663-4. (25.) Atwood TC, Weeks HP, Gehring TM. Spatial ecology of coyotes along a suburban-to-rural gradient. Journal of Wildlife Management. 2004;68:1000-9. Alexander Schweiger, * (1) Rudolf W. Ammann, * Daniel Candinas, ([dagger]) Pierre-Alain Clavien, * Johannes Eckert, * Bruno Gottstein, ([dagger]) Nerman Halkic, ([double dagger]) Beat Muellhaupt, * Bettina Mareike Prinz, * Juerg Reichen, ([dagger]) Philip E. Tarr, ([double dagger]) Paul R. Torgerson, * and Peter Deplazes * * University of Zurich, Zurich, Switzerland; ([dagger]) University of Bern The University of Bern is a university in the Swiss capital of Bern. It was founded in 1834. As one of the German-speaking universities in Switzerland its official name is Universität Bern, although it is frequently referred to in the French form, Université de Berne. , Bern, Switzerland; and ([double dagger]) University of Lausanne The University of Lausanne (in French: Université de Lausanne) or UNIL in Lausanne, Switzerland was founded in 1537 as a school of theology, before being made a university in 1890. Today about 10,000 students and 2200 researchers study and work at the university. , Lausanne, Switzerland (1) This author submitted this article to the University of Zurich as part of his Doctor of Medicine postgraduate degree requirement. Dr Schweiger is a research assistant at the Institute of Parasitology of the University of Zurich. His research interests include epidemiology of human AE in Switzerland. Address for correspondence: Peter Deplazes, Institute of Parasitology, University of Zurich, Wintcrhurerstr 266a, CH-8057 Zurich, Switzerland; email: deplazesp@access.uzh.ch
Table. Data from reported case-finding studies on human alveolar
echinococcosis, 1956-2005, Switzerland
Study (reference no.) Years No. cases
Drolshammer (12) 1956-1969 122
Gloor (13) 1970-1983 145
Eckert (14) 1984-1992 71 ([dagger])
This study 1993-2000 60
This study 2001-2005 96
Total 1956-2005 494
Mean annual
incidence/100,000 Mean age
Study (reference no.) population [+ or -] SD, y
Drolshammer (12) 0.15 54.2 [+ or -] 18.2
Gloor (13) 0.16 55.0 [+ or -] 16.0
Eckert (14) 0.12 52.0 [+ or -] 17.7
This study 0.10 52.5 [+ or -] 18.4
This study 0.26 ([dagger]) 54.5 [+ or -] 17.3
Total 0.15 54.0 [+ or -] 17.3
Sex, no. (%)
Study (reference no.) Male Female
Drolshammer (12) 65 (53) * 57 (46)
Gloor (13) 79 (54) * 66 (46)
Eckert (14) 33 (46) 38 (54)
This study 26 (43) 34 (57)
This study 42 (44) 54 (56)
Total 245 (49.7) 248 (50.3)
* Proportion of cases in male patients was significantly higher
during 1956-1983 than 1984-2005 (p<0.05).
([dagger]) Six more cases from 1984-1992 have been included in this
study.
([double dagger] Significantly increased compared with 1984-2000
(p for trend <0.01).
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