Fly transmission of Campylobacter.An annual increase in Campylobacter Campylobacter Genus of gram-negative spiral-shaped bacteria infecting mammals. Many species, especially C. fetus, cause miscarriage in sheep and cattle. C. jejuni is a common cause of food poisoning. Sources include meats (particularly chicken) and unpasteurized milk. infection in England and Wales England and Wales are both constituent countries of the United Kingdom, that together share a single legal system: English law. Legislatively, England and Wales are treated as a single unit (see State (law)) for the conflict of laws. begins in May and reaches a maximum in early June. This increase occurs in all age groups and is seen in all geographic areas. Examination of risk factors that might explain this seasonal increase identifies flies as a potential source of infection. The observed pattern of infection is hypothesized to reflect an annual epidemic caused by direct or indirect contamination of people by small quantities of infected material carried by flies that have been in contact with feces. The local pattern of human illness appears random, while having a defined geographic and temporal distribution that is a function of the growth kinetics of one or more fly species. The hypothesis provides an explanation for the seasonal distribution of Campylobacter infections seen around the world. ********** Campylobacter spp. are the most common bacterial causes of diarrhea Diarrhea (in American English) or diarrhoea (in British English) is a condition in which the sufferer has frequent watery, loose bowel movements. Many things can cause diarrhea, which can make diagnosis complex. in England and Wales (1). The epidemiologic features of Campylobacter infection have proved difficult to discover, and extensive strain typing has failed to clarify the main transmission routes. Testable hypotheses must be established to explain available evidence, particularly the reason for the observed seasonality. Relatively few outbreaks of Campylobacter gastroenteritis Campylobacter gastroenteritis, n a gastrointestinal tract infection with typical symptoms, caused by C. jejuni bacteria, the microaerophilic bacteria naturally occurring in humans. occur (2), and most cases are sporadic. In case-control and case-case studies of sporadic Campylobacter infections, most cases remain unexplained by recognized risk factors (3,4). The annual increase in Campylobacter infections in England and Wales begins at approximately day 130 (May 9) and reaches a maximum at approximately day 160 (June 8) (Figure 1). Although this seasonal rise is seen in all ages, it is more marked in children (5). Cases in towns and cities across England and Wales show broadly similar seasonal changes in distribution (Figure 2). The relative geographic uniformity of the increase seen in May of most years has the temporal appearance of an annual national epidemic. Because person-to-person infection within the community is uncommon, it is likely that the epidemic is caused by a single main driver for human Campylobacter infection. The possible seasonal drivers were examined, and only vector transmission by flies appears to provide a convincing explanation for the observed seasonal trends (Table). The seasonal increase in Campylobacter infections in May and June in England and Wales is hypothesized to reflect an annual epidemic caused by direct or indirect exposure of humans to 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. material carried by several fly species that have been in contact with human, bird, or animal feces or contaminated raw foods. Flies have been shown to carry Campylobacter and can infect both humans and animals (6-8). Intervention studies intervention studies, n.pl the epidemiologic investigations designed to test a hypothesized cause and effect relation by modifying the supposed causal factor(s) in the study population. have demonstrated diarrheal disease reduction linked to control of flies (9-11), and deaths from diarrheal diseases have been linked to measurements of fly abundance (12). The local pattern of human Campylobacter infection appears random, while having a defined geographic and temporal distribution. This distribution is predicted to be linked to the growth kinetics of 1 or more fly species and their access to environmental sources of Campylobacter in feces or food. The seasonal increase in fly populations results from rainy weather and an increase in temperature that causes the development from egg to fly to occur in days rather than months. Individual flies can lay hundreds of eggs, which can result in a large increase in fly numbers in a short period. Fly numbers fluctuate through the summer and decline in October, but the decline is less dramatic and defined than the spring increase. Disease transmission is hypothesized to occur through small quantities of contaminated material carried on the feet, proboscis proboscis elongated, flexible feeding apparatus, formed of the fused mouthparts, in some insects. , legs, and body hairs or from material regurgitated or defecated by flies. The variety, numbers, virulence and viability of organisms in the contaminated material will differ, and some contamination will include Campylobacter while others will not. Contamination will be distributed over a variety of food types. Contamination of food by flies could occur at any stage of the food supply chain, but Campylobacter counts within the contaminated material on foods will decrease over time; consequently, most infection will result from contamination close to consumption (e.g., in the domestic or catering environment). Because whether a fly has visited contaminated feces is unknown and how a person becomes infected is uncertain, epidemiologic investigation is difficult. A number of synanthropic fly species could be involved, including houseflies (e.g., Musca spp., Fannia spp.), blowflies (e.g., Calliphora spp., Lucilia spp.), and other dung-related flies (e.g., Sarcophaga spp., Drosophila Drosophila: see fruit fly. drosophila Any member of about 1,000 species in the dipteran genus Drosophila, commonly known as fruit flies but also called vinegar flies. Some species, particularly D. spp.) (13). These flies have individual behavioral patterns, ecology, physiology, and temporal and geographic distributions that will influence the likelihood of their being in kitchens, on human or animal feces, and on food. Although Musca domestica is the species most likely to be involved because it is commonly found in houses and food-processing establishments, larger flies (e.g., Calliphora spp.) may be able to transmit larger numbers of Campylobacter. Flies contaminated through fecal contact will carry heterogeneous mixtures of organisms, including any pathogens that are present within the feces, and may be able to cause a variety of human infections, including infection by different Campylobacter species and types. This fact partially explains the lack of a clear epidemiologic picture arising from Campylobacter typing work. Gastrointestinal disease gastrointestinal disease, n an abnormal state or function of the GI system. caused by flies is more likely to involve pathogens with a low infectious dose (e.g., Shigella shigella Any of the rod-shaped bacteria that make up the genus Shigella, which are normal inhabitants of the human intestinal tract and can cause dysentery, or shigellosis. Shigellae are gram-negative (see gram stain), non-spore-forming, stationary bacteria. S. , Campylobacter, Cryptosporidium cryptosporidium (krĭp'tōspərĭd`ēəm), genus of protozoans having at least four species; they are waterborne parasites that cause the disease cryptosporidiosis. , Giardia Giardia /Gi·ar·dia/ (je-ahr´de-ah) a genus of flagellate protozoa parasitic in the intestinal tract of humans and other animals, which may cause giardiasis; G. lam´blia (G. intestina´lis) is the species found in humans. , Cyclospora, Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. O157), and some of these could have a seasonal component related to flies. Where high fly populations and poor hygiene conditions prevail, as in disasters or famines, or where pathogens can grow within fly-contaminated food, the potential exists for transmitting pathogens with a high infectious dose (e.g., Vibrio cholerae Vibrio chol·er·ae n. A bacterium that causes Asiatic cholera in humans; Koch's bacillus. Vibrio cholerae Infectious disease The Vibrio , Salmonella spp.). The access that flies have to human and animal feces will influence the degree to which they are contaminated with different enteric enteric /en·ter·ic/ (en-ter´ik) within or pertaining to the small intestine. en·ter·ic adj. 1. Of, relating to, or within the intestine. 2. pathogens. Contamination of a range of foods by flies will result in a pattern of infection that will not be amenable to identifying specific vehicles through standard case-control, case-case, or cohort studies, unless specific objective or subjective assessments of fly numbers can be obtained. Fly monitoring will need to be undertaken. An alternative approach could use estimates of fly population numbers based on climatic conditions to compare with data on human Campylobacter infections. This approach has the advantage of being able to use historical climatic and disease surveillance data. The broad relationship between Campylobacter cases and ambient temperature Outside temperature at any given altitude, preferably expressed in degrees centigrade. has not been explained in terms of disease causation. The time taken for the larvae Larvae, in Roman religion Larvae: see lemures. of M. domestica to develop (13) was applied to temperature data for England and Wales and has been used to show a strong relationship between Campylobacter cases per week and M. domestica larval larval 1. pertaining to larvae. 2. larvate. larval migrans see cutaneous and visceral larva migrans. development time for 1989 to 1999 (Figure 3). Periods when Campylobacter cases exceed a 7-day average of 170 cases per day occurred when M. domestica larval development time was <3 weeks. [FIGURES 1-3 OMITTED] The hypothesis predicts that the Campylobacter infection rates will be higher in persons living close to animal production and lower in urban settings because fly numbers will be lower. Some evidence from the United Kingdom (1,14) and Norway (15) supports this hypothesis. Seasonal changes in Campylobacter incidence that are seen around the world may result from changes in fly populations and flies' access to human and animal feces. Much emphasis on foodborne disease reduction has rightly been on kitchen hygiene, since the low infectious dose of Campylobacter makes cross-transmission from raw meats to ready-to-eat foods a substantial risk in domestic and catering environments. Fly transmission may be the most important source of infection in kitchen transmission routes, and establishments that sell ready-to-eat foods may be sources of Campylobacter, if effective fly control is not in operation. Flies may also be important in transmitting Campylobacter in poultry flocks (16) and between other agricultural animals. While flies are regarded as important mechanical vectors of diarrheal disease in developing countries, control has largely concentrated on improving drinking water drinking water supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. and sewage disposal. In the industrialized in·dus·tri·al·ize v. in·dus·tri·al·ized, in·dus·tri·al·iz·ing, in·dus·tri·al·iz·es v.tr. 1. To develop industry in (a country or society, for example). 2. world, flies are thought to play a minor role in the transmission of human diarrheal diseases. Immediately intervening in the transmission of Campylobacter gastroenteritis should be possible through increased public awareness and more effective fly control.
Table. Risk factors that might affect Campylobacter seasonality *
Risk factor Outbreaks Evidence of seasonality
Barbecuing Yes Medium
Birds Yes Strong
Bottled water No None
Chicken Yes Medium
Cross-contamination Yes None
Domestic catering No None
Farm visit Yes None
Farm animals Yes Weak
Flies No Strong
Food handlers Yes None
Food packaging No None
Immunologic response No Weak
Mains supply drinking water Yes None
Nosocomial Yes None
Pets No Weak
Pools, lakes, streams No None
Private drinking water supplies Yes Weak
Protozoa No None
Salads and fruit Yes Weak
Stir-fried food Yes None
The countryside No Weak
Transmission in families Yes None
Travel abroad No None
Unpasteurized milk Yes Weak
Weather/climate No Medium
Credibility as the main seasonal
Risk factor driver
Barbecuing Low
Birds Low
Bottled water Low
Chicken Medium
Cross-contamination None
Domestic catering None
Farm visit None
Farm animals Low
Flies High
Food handlers None
Food packaging None
Immunologic response None
Mains supply drinking water None
Nosocomial None
Pets Low
Pools, lakes, streams None
Private drinking water supplies None
Protozoa Low
Salads and fruit Low
Stir-fried food None
The countryside Medium
Transmission in families None
Travel abroad None
Unpasteurized milk None
Weather/climate Medium
* Evidence base provided in online Appendix (available from
http://www.cdc.gov/ncidod/EID/vol11no03/04-0460_app.htm).
Acknowledgments This hypothesis arose after a lecture by Professor Sandy Cairncross at the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, in the spring of 2002. I thank Fay Burgess, Radha Patel, Chris Lane, Douglas Harding, and Erol Yousef for help in preparing the data; Jim McLauchlin, Barry Evans, Chris Little, and John Edmonds for critically commenting on versions of the paper; and Andre Charlett for statistical support. References (1.) Tam CC. Campylobacter reporting at its peak year of 1998: don't count your chickens yet. Commun Dis Public Health. 2001;4:194-9. (2.) Frost JA, Gillespie IA, O'Brien SJ. Public health implications of campylobacter outbreaks in England and Wales, 1995-9: epidemiological and microbiological investigations. Epidemiol Infect. 2002; 128:111-8. (3.) Adak GK, Cowden JM, Nicholas S, Evans HS. The Public Health Laboratory Service national case-control study case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. of primary indigenous sporadic cases of campylobacter infection. Epidemiol Infect. 1995;115:15-22. (4.) Gillespie IA, O'Brien S J, Frost JA, Adak GK, Horby P, Swan AV, et al. A case-case comparison of Campylobacter coli and Campylobacter jejuni Campylobacter jejuni Vibrio jejuni, Campylobacter fetus ssp jejuni A curved or spiral gram-negative bacillus with a single polar flagellum Epidemiology Linked to contact with domestic and farm animals, unpasteurized milk, primates, day care infection: a tool for generating hypotheses. Emerg Infect Dis. 2002;8:937-42. (5.) Louis VR, Gillespie IA, O'Brien S J, Russek-Cohen E, Pearson AD, Colwell RR. Temperature driven Campylobacter seasonality in England and Wales. Appl Environ Microbiol. 2005;71:85-92. (6.) Khalil K, Lindblom GB, Mazhar K, Kaijser B. Flies and water as reservoirs for bacterial enteropathogens in urban and rural areas in and around Lahore, Pakistan. Epidemiol Infect. 1994; 113:435-44. (7.) Rosef O, Kapperud G, House flies (Musca domestica) as possible vectors of Campylobacter fetus subsp, jejuni. Appl Environ Microbiol. 1983;45:381-3. (8.) Shane SM, Montrose MS, Harrington KS. Transmission of Campylobacterjejuni by the housefly housefly, common name of the fly Musca domestica, found in most parts of the world. The housefly, a scavenger, does not bite living animals but is dangerous because it carries bacteria and protozoans that cause many serious diseases, e.g. (Musca domestica). Avian Dis. 1985;29:384-91. (9.) Chavasse DC, Shier shi·er adj. A comparative of shy1. RP, Murphy OA, Huttly SR, Cousens SN, Akhtar T. Impact of fly control on childhood diarrhoea in Pakistan: community-randomised trial. Lancet. 1999;353:22-5. (10.) Cohen cohen or kohen (Hebrew: “priest”) Jewish priest descended from Zadok (a descendant of Aaron), priest at the First Temple of Jerusalem. The biblical priesthood was hereditary and male. D, Green M, Block C, Slepon R, Ambar R, Wasserman SS, et al. Reduction of transmission of shigellosis Shigellosis Definition Shigellosis is an infection of the intestinal tract by a group of bacteria called Shigella. The bacteria is named in honor of Shiga, a Japanese researcher, who discovered the organism in 1897. by control of houseflies (Musca domestica). Lancet. 1991 ;337:993-7. (11.) Emerson PM, Lindsay SW, Walraven GE, Faal H, Bogh C, Lowe K, et al. Effect of fly control on trachoma trachoma (trəkō`mə), infection of the mucous membrane of the eyelids caused by the bacterium Chlamydia trachomatis. Trachoma infects more than 150 million people worldwide. and diarrhoea. Lancet. 1999;353:1401-3. (12.) Niven J. Summer diarrhoea and enteric fever enteric fever n. 1. See typhoid fever. 2. See paratyphoid fever. Enteric fever A term that is sometimes used for either typhoid or paratyphoid fever. Mentioned in: Paratyphoid Fever . Proc R Soc Med. 1910;III(Epidem. Sect.):131-216. (13.) Kettle DS. Medical and veterinary entomology entomology, study of insects, an arthropod class that comprises about 900,000 known species, representing about three fourths of all the classified animal species. . 2nd ed. Wallingford (UK): CABI CABI Commonwealth Agricultural Bureaux International (UK) CABI Centre for Agriculture and Biosciences International (UK) CABI Colorado Association of Business Intermediaries CABI California Birth Index Publishing; 2000. (14.) Skirrow MB. A demographic survey of campylobacter, salmonella, and shigella infections in England. A Public Health Laboratory Service survey. Epidemiol Infect. 1987;99:647-57. (15.) Kapperud G, Aasen S. Descriptive epidemiology descriptive epidemiology see descriptive epidemiology. of infections due to thermotolerant Campylobacter spp. in Norway, 1979-1988. APMIS APMIS Acta Pathologica, Microbiologica et Immunologica Scandinavica APMIS Automated Project Management Information System APMIS Automated Project Management System . 1992;100:883 90. (16.) Hald B, Skovgard H, Bang DD, Pedersen K, Dybdahl J, Jespersen JB, et al. Flies and Campylobacter infection of broiler broiler a young (about 8 weeks old) male or female chicken weighing 3 to 3.5 lb. flocks. Emerg Infect Dis. 2004;10:1490 2. Dr. Nichols is an epidemiologist in the Communicable Disease communicable disease n. A disease that is transmitted through direct contact with an infected individual or indirectly through a vector. Also called contagious disease. Surveillance Centre, which is part of the Health Protection Agency Centre for Infections in London. His research interests include waterborne diseases, foodborne diseases, cryptosporidiosis Cryptosporidiosis Definition Cryptosporidiosis refers to infection by the sporeforming protozoan known as Cryptosporidia. Protozoa are a group of parasites that infect the human intestine, and include the better known Giardia. , and enteric infections. Address for correspondence: Gordon L. Nichols, Environmental and Enteric Diseases Department, Communicable Disease Surveillance Centre, Health Protection Agency Centre for Infections, 61 Colindale Ave, London NW9 5EQ, United Kingdom; fax: 44(0)20-8905-9907; email: gordon.nichols@hpa.org.uk Gordon L. Nichols, Health Protection Agency Centre for Infections, London, United Kingdom |
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