Campylobacter jejuni--An Emerging Foodborne Pathogen.Campylobacter jejuni is the most commonly reported bacterial cause of foodborne infection in the United States. Adding to the human and economic costs are chronic sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention associated with C. jejuni infection--Guillian-Barre syndrome and reactive arthritis. In addition, an increasing proportion of human infections caused by C. jejuni are resistant to antimicrobial therapy. Mishandling of raw poultry and consumption of undercooked poultry are the major risk factors for human campylobacteriosis. Efforts to prevent human illness are needed throughout each link in the food chain. History Awareness of the public health implications of 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. infections has evolved over more than a century (1). In 1886, Escherich observed organisms resembling campylobacters in stool samples of children with diarrhea. In 1913, McFaydean and Stockman identified campylobacters (called related Vibrio vibrio Any of a group of aquatic, comma-shaped bacteria in the family Vibrionaceae. Some species cause serious diseases in humans and other animals. They are gram-negative (see ) in fetal tissues of aborted sheep (1). In 1957, King described the isolation of related Vibrio from blood samples of children with diarrhea, and in 1972, clinical microbiologists in Belgium first isolated campylobacters from stool samples of patients with diarrhea (1). The development of selective growth media in the 1970s permitted more laboratories to test stool specimens for Campylobacter. Soon Campylobacter spp. were established as common human pathogens. Campylobacter jejuni infections are now the leading cause of bacterial gastroenteritis reported in the United States (2). In 1996, 46% of laboratory-confirmed cases of bacterial gastroenteritis reported in the Centers for Disease Control and Prevention/U.S. Department of Agriculture/Food and Drug Administration Collaborating Sites Foodborne Disease Active Surveillance Network were caused by Campylobacter species. Campylobacteriosis was followed in prevalence by salmonellosis salmonellosis (săl'mənĕlō`sĭs), any of a group of infectious diseases caused by intestinal bacteria of the genus Salmonella, (28%), 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. (17%), and Escherichia coli 0157 infection (5%) (Figure 1). [Figure 1 ILLUSTRATION OMITTED] Disease Prevalence In the United States, an estimated 2.1 to 2.4 million cases of human campylobacter- iosis (illnesses ranging from loose stools to dysentery dysentery (dĭs`əntĕr'ē), inflammation of the intestine characterized by the frequent passage of feces, usually with blood and mucus. ) occur each year (2). Commonly reported symptoms of patients with laboratory-confirmed infections (a small subset of all cases) include diarrhea, fever, and abdominal cramping. In one study, approximately half of the patients with laboratory-confirmed campylobacter- iosis reported a history of bloody diarrhea (3). Less frequently, C. jejuni infections produce bacteremia bacteremia: see septicemia. bacteremia Presence of bacteria in the blood. Short-term bacteremia follows dental or surgical procedures, especially if local infection or very high-risk surgery releases bacteria from isolated sites. , septic arthritis, and other extraintestinal symptoms (4). The incidence of campylobacteriosis in HIV-infected patients is higher than in the general population. For example, in Los Angeles County between 1983 and 1987, the reported incidence of campylobacteriosis in patients with AIDS was 519 cases per 100,000 population, 39 times higher than the rate in the general population. (5). Common complications of campylobacteriosis in HIV-infected patients are recurrent infection and infection with antimicrobial-resistant strains 6). Deaths from C. jejuni infection are rare and occur primarily in infants, the elderly, and patients with underlying illnesses (2). Sequelae to Infection Guillain-Barre syndrome (GBS See GB/sec. ), a demyelating disorder resulting in acute neuromuscular paralysis, is a serious sequela sequela /se·que·la/ (se-kwel´ah) pl. seque´lae [L.] a morbid condition following or occurring as a consequence of another condition or event. se·quel·a n. pl. of Campylobacter infection (7). An estimated one case of GBS occurs for every 1,000 cases of campylobacteriosis (7). Up to 40% of patients with the syndrome have evidence of recent Campylobacter infection (7). Approximately 20% of patients with GBS are left with some disability, and approximately 5% die despite advances in respiratory care. Campylobacteriosis is also associated with Reiter syndrome, a reactive arthropathy arthropathy /ar·throp·a·thy/ (ahr-throp´ah-the) any joint disease.arthropath´ic Charcot's arthropathy neuropathic a. . In approximately 1% of patients with campylobacteriosis, the sterile postinfection process occurs 7 to 10 days after onset of diarrhea (8). Multiple joints can be affected, particularly the knee joint. Pain and incapacitation in·ca·pac·i·tate tr.v. in·ca·pac·i·tat·ed, in·ca·pac·i·tat·ing, in·ca·pac·i·tates 1. To deprive of strength or ability; disable. 2. To make legally ineligible; disqualify. can last for months or become chronic. Both GBS and Reiter syndrome are thought to be autoimmune responses stimulated by infection. Many patients with Reiter syndrome carry the HLA HLA human leukocyte antigens. HLA abbr. human leukocyte antigen HLA (human leuckocyte antigen) B27 antigenic marker (8). The pathogenesis of GBS (9) and Reiter syndrome is not completely understood. Treatment of C. jejuni Infections Supportive measures, particularly fluid and electrolyte replacement, are the principal therapies for most patients with campylobacteriosis (10). Severely dehydrated de·hy·drate v. de·hy·drat·ed, de·hy·drat·ing, de·hy·drates v.tr. 1. To remove water from; make anhydrous. 2. To preserve by removing water from (vegetables, for example). patients should receive rapid volume expansion with intravenous fluids. For most other patients, oral rehydration rehydration /re·hy·dra·tion/ (-hi-dra´shun) the restoration of water or fluid content to a patient or to a substance that has become dehydrated. re·hy·dra·tion n. 1. is indicated. Although Campylobacter infections are usually self limiting, antibiotic therapy may be prudent for patients who have high fever, bloody diarrhea, or more than eight stools in 24 hours; immunosuppressed Immunosuppressed A state in which the immune system is suppressed by medications during the treatment of other disorders, like cancer, or following an organ transplantation. Mentioned in: Fifth Disease patients, patients with bloodstream infections, and those whose symptoms worsen or persist for more than 1 week from the time of diagnosis. When indicated, antimicrobial therapy soon after the onset of symptoms can reduce the median duration of illness from approximately 10 days to 5 days. When treatment is delayed (e.g., until C. jejuni infection is confirmed by a medical laboratory), therapy may not be successful (10). Ease of administration, lack of serious toxicity, and high degree of efficacy make erythromycin erythromycin (ĭrĭth'rōmī`sĭn), any of several related antibiotic drugs produced by bacteria of the genus Streptomyces (see antibiotic). the drug of choice for C. jejuni infection; however, other antimicrobial agents, particularly the quinolones and newer macrolides including azithromycin, are also used. Antimicrobial Resistance The increasing rate of human infections caused by antimicrobial-resistant strains of C. jejuni makes clinical management of cases of campylobacteriosis more difficult (11,12). Antimicrobial resistance can prolong illness and compromise treatment of patients with bacteremia. The rate of antimicrobial-resistant 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. infections is highest in the developing world, where the use of antimicrobial drugs in humans and animals is relatively unrestricted. A 1994 study found that most clinical isolates of C. jejuni from U.S. troops in Thailand were resistant to ciprofloxacin ciprofloxacin /cip·ro·flox·a·cin/ (sip?ro-flok´sah-sin) a synthetic antibacterial effective against many gram-positive and gram-negative bacteria; used as the hydrochloride salt. cip·ro·flox·a·cin n. . Additionally, nearly one third of isolates from U.S. troops located in Hat Yai were resistant to azithromycin (11). 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, the emergence of fluoroquinolone-resistant strains of C. jejuni illustrates the need for prudent antimicrobial use in food-animal production (12). Experimental evidence demonstrates that fluoroquinolone-susceptible C. jejuni readily become drug-resistant in chickens when these drugs are administered (13). After flouroquinolone use in poultry was approved in Europe, resistant C. jejuni strains emerged rapidly in humans during the early 1990s (12). Similarly, within 2 years of the 1995 approval of fluoroquinolone fluoroquinolone /flu·o·ro·quin·o·lone/ (-kwin´o-lon) any of a subgroup of fluorine-substituted quinolones, having a broader spectrum of activity than nalidixic acid. fluor·o·quin·o·lone n. use for poultry in the United States, the number of domestically acquired human cases of ciprofloxacin-resistant campylobacteriosis doubled in Minnesota (14). In a 1997 study conducted in Minnesota, 12 (20%) of 60 C. jejuni isolates obtained from chicken purchased in grocery stores were ciprofloxacin-resistant (14). Pathogenesis The pathogenesis of C. jejuni infection involves both host- and pathogen-specific factors. The health and age of the host (2) and C. jejuni-specific humoral immunity from previous exposure (15) influence clinical outcome after infection. In a volunteer study, C. jejuni infection occurred after ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. of as few as 800 organisms (16). Rates of infection increased with the ingested dose. Rates of illness appeared to increase when inocula were ingested in a suspension buffered to reduce gastric acidity (16). Many pathogen-specific virulence determinants may contribute to the pathogenesis of C. jejuni infection, but none has a proven role (17). Suspected determinants of pathogenicity include chemotaxis chemotaxis: see taxis. , motility motility /mo·til·i·ty/ (mo-til´ite) the ability to move spontaneously.mo´tile Motility Motility is spontaneous movement. , and flagella flagella /fla·gel·la/ (flah-jel´ah) [L.] plural of flagellum. flagella (fl , which are required for attachment and colonization of the gut epithelium (Figure 2) (17). Once colonization occurs, other possible virulence determinants are iron acquisition, host cell invasion, toxin production, inflammation and active secretion, and epithelial disruption with leakage of serosal fluid (17). [Figure 2 ILLUSTRATION OMITTED] Survival in the Environment Survival of C. jejuni outside the gut is poor, and replication does not occur readily (17). C. jejuni grows best at 37 [degrees] C to 42 [degrees] C (18), the approximate body temperature of the chicken (41 [degrees] C to 42 [degrees] C). C. jejuni grows best in a low oxygen or microaerophilic microaerophilic /mi·cro·aero·phil·ic/ (-a?er-o-fil´ik) requiring oxygen for growth but at lower concentration than is present in the atmosphere; said of bacteria. environment, such as an atmosphere of 5% [O.sub.2], 10% [CO.sub.2], and 85% [N.sub.2]. The organism is sensitive to freezing, drying, acidic conditions (pH [is less than or equal to] 5.0), and salinity. Sample Collection and Transport If possible, stool specimens should be chilled (not frozen) and submitted to a laboratory within 24 hours of collection. Storing specimens in deep, airtight containers minimizes exposure to oxygen and desiccation des·ic·ca·tion n. The process of being desiccated. des  ic·ca . If a specimen cannot be processed within 24 hours or is
likely to contain small numbers of organisms, a rectal swab placed in a
specimen transport medium (e.g., Cary-Blair) should be used. Individual
laboratories can provide guidance on specimen handling procedures (18).Numerous procedures are available for recovering C. jejuni from clinical specimens (18). Direct plating is cost-effective for testing large numbers of specimens; however, testing sensitivity may be reduced. Preenrichment (raising the temperature from 36 [degrees] C to 42 [degrees] C over several hours), filtration, or both are used in some laboratories to improve recovery of stressed C. jejuni organisms from specimens (e.g., stored foods or swabs exposed to oxygen) (19). Isolation can be facilitated by using selective media containing antimicrobial agents, oxygen quenching quenching Rapid cooling, as by immersion in oil or water, of a metal object from the high temperature at which it is shaped. Quenching is usually done to maintain mechanical properties that would be lost with slow cooling. agents, or a low oxygen atmosphere, thus decreasing the number of colonies that must be screened (18,19). Subtyping of Isolates No standard subtyping technique has been established for C. jejuni. Soon after the organism was described, two 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. methods were developed, the heat-stable or somatic O antigen (20) and the heat-labile antigen schemes (21). These typing schemes are labor intensive, and their use is limited almost exclusively to reference laboratories. Many different DNA-based subtyping schemes have been developed, including pulsed-field gel electrophoresis (PFGE PFGE Pulsed-Field Gel Electrophoresis ) and randomly amplified polymorphic 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. (RAPD RAPD Randomly Amplified Polymorphic DNA RAPD relative afferent pupillary defect (ophthalmology; aka Marcus-Gunn Pupil) ) analysis (22). Various typing schemes have been developed on the basis of the sequence of fla A, encoding flagellin flagellin /fla·gel·lin/ (flah-jel´in) a protein of bacterial flagella; it is composed of subunits in several-stranded helical arrangement. (23); however, recent evidence suggests that this locus may not be representative of the entire genome (24). Transmission to Humans Most cases of human campylobacteriosis are sporadic. Outbreaks have different epidemiologic characteristics from sporadic infections (2). Many outbreaks occur during the spring and autumn (2). Consumption of raw milk was implicated as the source of infection in 30 of the 80 outbreaks of human campylobacteriosis reported to CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation between 1973 and 1992. Outbreaks caused by drinking raw milk often involve farm visits (e.g., school field trips) during the temperate seasons. In contrast, sporadic Campylobacter isolates peak during the summer months (Figure 1). A series of case-control studies identified some risk factors for sporadic campylobacteriosis, particularly handling raw poultry (25,26) and eating undercooked poultry (27-31) (Table). Other risk factors accounting for a smaller proportion of sporadic illnesses include drinking untreated water (29); traveling abroad (25); eating barbequed pork (28) or sausage (27); drinking raw milk (29,32) or milk from bird-pecked bottles (33); and contact with dogs (27) and cats (29,31), particularly juvenile pets or pets with diarrhea (25,34). Person-to-person transmission is uncommon (25,32). Overlap is reported between serotypes of C. jejuni found in humans, poultry, and cattle, indicating that foods of animal origin may play a major role in transmitting C. jejuni to humans (35). Table. Epidemiologic studies of laboratory-confirmed cases of sporadic campylobacteriosis
Number
Cases Controls Date Population Location
52 103 1989- Residents of Norway
1990 three counties
218 526 1982- HMO patients Washington
1983 State
29 42 1990 Residents of England
Manchester
45 45 1983- University Georgia
1984 students
53 106 1982- Rural children Iowa
1983
40 80 1981 Residents of Colorado
Denver
Ft. Collins
54 54 1982 Residents of Netherlands
Rotterdam
10 15 1982 Residents of Colorado
Larimer County
55 14 1980 Residents of Sweden
Goteborg
Foods associated Animal
Date with illness contacts Ref.
1989- Poultry, sausage Dogs 27
1990
1982- Undercooked Animals 30, 34
1983 chicken with
diarrhea
1990 Bottled milk(a) 33
1983- Chicken Cats 31
1984
1982- Raw milk 32
1983
1981 Untreated water, Cats 29
raw milk,
undercooked
chicken
1982 Chicken, pork, 28
barbequed foods
1982 Preparing chicken 26
1980 Preparing chicken Kitten dog 25
with
diarrhea
(a) Bottle tops pecked by wild birds. In the United States, infants have the highest age-specific Campylobacter isolation rate, approximately 14 per 100,000 person years. As children get older, isolation rates decline to approximately 4 per 100,000 person years for young adolescents. A notable feature of the epidemiology of human campylobacteriosis is the high isolation rate among young adults, approximately 8 per 100,000 person years. Among middle-aged and older adults, the isolation rate is [is less than] 3 per 100,000 person years (2). The peak isolation rate in neonates and infants is attributed in part to susceptibility on first exposure and to the low threshold for seeking medical care for infants (2). The high rate of infection during early adulthood, which is pronounced among men, is thought to reflect poor food-handling practices in a population that, until recently, relied on others to prepare meals (2). Reservoirs The ecology of C. jejuni involves wildlife reservoirs, particularly wild birds. Species that carry C. jejuni include migratory birds--ranes, ducks, geese (36), and seagulls (37). The organism is also found in other wild and domestic bird species, as well as in rodents (38). Insects can carry the organism on their exoskeleton exoskeleton /exo·skel·e·ton/ (-skel´e-ton) a hard structure formed on the outside of the body, as a crustacean's shell; in vertebrates, applied to structures produced by the epidermis, as hair, nails, hoofs, teeth, etc. (39). The intestines of poultry are easily colonized Colonized This occurs when a microorganism is found on or in a person without causing a disease. Mentioned in: Isolation with C. jejuni. Day-old chicks can be colonized with as few as 35 organisms (40). Most chickens in commercial operations are colonized by 4 weeks (41,42). Vertical transmission (i.e., from breeder flocks to progeny) has been suggested in one study but is not widely accepted (43). Reservoirs in the poultry environment include beetles (39), unchlorinated drinking water (44), and farm workers (41,42,45). Feeds are an unlikely source of campylobacters since they are dry and campylobacters are sensitive to drying. C. jejuni is a commensal commensal /com·men·sal/ (kom-men´sil) 1. living on or within another organism, and deriving benefit without harming or benefiting the host. 2. a parasite that causes no harm to the host. organism of the intestinal tract of cattle (46). Young animals are more often colonized than older animals, and feedlot feedlot a management system in which naturally grazing animals are confined to a small area which produces no feed and are fed on stored feeds. See also dry lot. backgrounding feedlot cattle are more likely than grazing animals to carry campylobacters (47). In one study, colonization of dairy herds was associated with drinking unchlorinated water (48). Campylobacters are found in natural water sources throughout the year. The presence of campylobacters is not clearly correlated with indicator organisms for fecal contamination (e.g., E. coli)(49). In temperate regions, organism recovery rates are highest during the cold season (49,50). Survival in cold water is important in the life cycle of campylobacters. In one study, serotypes found in water were similar to those found in humans (50). When stressed, campylobacters enter a "viable but nonculturable state," characterized by uptake of amino acids and maintenance of an intact outer membrane but inability to grow on selective media; such organisms, however, can be transmitted to animals (51). Additionally, unchlorinated drinking water can introduce campylobacters into the farm environment (44,48). Campylobacter in the Food Supply C. jejuni is found in many foods of animal origin. Surveys of raw agricultural products support epidemiologic evidence implicating poultry, meat, and raw milk as sources of human infection. Most retail chicken is contaminated with C. jejuni; one study reported an isolation rate of 98% for retail chicken meat (52). C. jejuni counts often exceed [10.sup.3] per 100 g. Skin and giblets gib·lets pl.n. The edible heart, liver, or gizzard of a fowl. [From Middle English gibelet, from Old French, game stew, perhaps alteration of *giberet, from gibier, have particularly high levels of contamination. In one study, 12% of raw milk samples from dairy farms in eastern Tennessee were contaminated with C. jejuni (53). Raw milk is presumed to be contaminated by bovine feces; however, direct contamination of milk as a consequence of mastitis mastitis (măstī`tĭs), inflammation of the breast. Mastitis most commonly occurs in nursing mothers between the first and third weeks after childbirth, usually of the first child. also occurs (54). Campylobacters are also found in red meat. In one study, C. jejuni was present in 5% of raw ground beef and in 40% of veal specimens (55). Control of Campylobacter Infection On the Farm Control of Campylobacter contamination on the farm may reduce contamination of carcasses, poultry, and red meat products at the retail level (27). Epidemiologic studies indicate that strict hygiene reduces intestinal carriage in food-producing animals (41,42,45). In field studies, poultry flocks that drank chlorinated chlorinated /chlo·ri·nat·ed/ (klor´i-nat?ed) treated or charged with chlorine. chlorinated charged with chlorine. chlorinated acids some, e.g. water had lower intestinal colonization rates than poultry that drank unchlorinated water (42,44). Experimentally, treatment of chicks with commensal bacteria (56) and immunization immunization: see immunity; vaccination. of older birds (57) reduced C. jejuni colonization. Because intestinal colonization with campylobacters readily occurs in poultry flocks, even strict measures may not eliminate intestinal carriage by food-producing animals (39,41). At Processing Slaughter and processing provide opportunities for reducing C. jejuni counts on food-animal carcasses. Bacterial counts on carcasses can increase during slaughter and processing steps. In one study, up to a 1,000-fold increase in bacterial counts on carcasses was reported during transportation to slaughter (58). In studies of chickens (59) and turkeys (60) at slaughter, bacterial counts increased by approximately 10- to 100-fold during defeathering and reached the highest level after evisceration evisceration /evis·cer·a·tion/ (e-vis?er-a´shun) 1. removal of the abdominal viscera. 2. removal of the contents of the eyeball, leaving the sclera. e·vis·cer·a·tion n. . However, bacterial counts on carcasses decline during other slaughter and processing steps. In one study, forced-air chilling of swine carcasses caused a 100-fold reduction in carcass contamination (61). In Texas turkey plants, scalding scalding plunging of pig or poultry carcasses into very hot water to facilitate scraping and dehairing and plucking. Chicken scalding water is 130°F for broilers (larger birds higher) applied for 1 to 2 minutes. Modern pig abattoirs use steam at 144 to 147°F for about 3 minutes. reduced carcass counts to near or below detectable levels (60). Adding sodium chloride or trisodium tri·so·di·um adj. Containing three sodium atoms. phosphate to the chiller chill·er n. 1. One that chills. 2. A frightening story, especially one involving violence, evil, or the supernatural; a thriller. chiller Noun 1. water in the presence of an electrical current reduced C. jejuni contamination of chiller water by 2 [log.sub.l0] units (62). In a slaughter plant in England, use of chlorinated sprays and maintenance of clean working surfaces resulted in a 10- to 100-fold decrease in carcass contamination (63). In another study, lactic acid spraying of swine carcasses reduced counts by at least 50% to often undetectable levels (64). A radiation dose of 2.5 KGy reduced C. jejuni levels on retail poultry by 10 [log.sub.10] units (65). Conclusions C. jejuni, first identified as a human diarrheal pathogen in 1973, is the most frequently diagnosed bacterial cause of human gastroenteritis gastroenteritis: see enteritis. gastroenteritis Acute infectious syndrome of the stomach lining and intestines. Symptoms include diarrhea, vomiting, and abdominal cramps. in the United States. Sequelae including GBS and reactive arthritis are increasingly recognized, adding to the human and economic cost of illness from human campylobacteriosis. The emergence of fluoroquinolone-resistant infections in Europe and the United States, temporally associated with the approval of fluoroquinolone use in veterinary medicine, is also a public health concern. The consumption of undercooked poultry and cross-contamination of other foods with drippings from raw poultry are leading risk factors for human campylobacteriosis. Reinforcing hygienic practices at each link in the food chain--from producer to consumer--is critical in preventing the disease. References (1.) Kist kist n. Variant of cist2. kist Noun Scot & S African a large wooden chest Kist a chest of money, hence, a store or cache of money, 1619. M. The historical background of Campylobacter infection: new aspects. In: Pearson AD, editor. Proceedings of the 3rd International Workshop on Campylobacter Infections; Ottawa; 1985 Jul 7-10. London: Public Health Laboratory Service; 1985. p.23-7. (2.) Tauxe RV. Epidemiology of Campylobacter jejuni infections in the United States and other industrial nations. In: Nachamkin I, Blaser MJ, Tompkins LS, editors. Campylobacter jejuni: current and future trends. Washington: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic ; 1992. p. 9-12. (3.) Blaser MJ, Wells JG, Feldman RA, Pollard RA, Allen JR, the Collaborative Diarrheal Disease Study Group. Campylobacter enteritis in the United States: a multicenter study. Ann Intern Med 1983;98:360-5. (4.) Peterson MC. Clinical aspects of Campylobacter jejuni infections in adults. Wes J Med 1994;161:148-52. (5.) Sorvillo FJ, Lieb LE, Waterman SH. Incidence of campylobacteriosis among patients with AIDS in Los Angeles County. 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One who is affected by rheumatism. rheumatic pertaining to or affected with rheumatism. manifestations of Campylobacler jejuni and C. fetus infections in adults. Scand J Rheumatol 1994;23:167-70. (9.) Shoenfeld Y, George J, Peter JB. Guillain-Barre as an autoimmune disease. Int Arch Allergy Immunol 1996; 109:318-26. (10.) Blaser MJ. Campylobacter species. In: Principles and practice of infectious diseases. Mandell GL, Douglas RG, Bennett JE, editors. 3rd ed. New York: Churchill Livingstone, 1990; 194:1649-58. (11.) Murphy GS Jr, Echeverria P, Jackson LR, Amess MK, LeBron C, Pitarangsi C. Ciprofloxacin-and azithromycin-resistant Campylobacter causing traveler's diarrhea in U.S. troops deployed to Thailand in 1994. Clin Infect Dis 1996;22:868-9. (12.) Piddock LJV. Quinolone resistance and Campylobacter spp. Antimicrob Agents Chemother 1995;36:891-8. (13.) Jacobs-Reitsma WF, Kan CA, Bolder NM. The induction of quinolone resistance in Campylobacter bacteria in broilers by quinolone treatment. In: Campylobacters, helicobacters, and related organisms. Newell DG, Ketley JM, Feldman RA, editors. New York: Plenum Press; 1996. p. 307-11. (14.) Smith KE, Besser JM, Leano F, Bender J, Wicklund J, Johnson B, et al. Fluoroquinolone-resistant Campylobacter isolated from humans and poultry in Minnesota [abstract]. Program of the 1st International Conference on Emerging Infectious Diseases The ICEID or International Conference on Emerging Infectious Diseases is a conference for public health professionals on the subject of emerging infectious diseases. ; Atlanta, Georgia; 1998 Mar 7-10. Atlanta: 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. ; 1998. (15.) Blaser MJ, Sazie E, Williams LP Jr. The influence of immunity on raw milk-associated Campylobacter infection. JAMA JAMA abbr. Journal of the American Medical Association 1987;257:43-6. (16.) Black RE, Levine MM, Clements ML, Hughes TP, Blaser MJ. Experimental Campylobacter jejuni infection in humans. J Infect Dis 1988;157:472-9. (17.) Ketley JM. Pathogenesis of enteric infection by Campylobacter. Microbiology 1997; 143:5-21. (18.) Nachamkin I. Campylobacter and Arcobacter. In: Manual of clinical microbiology. 6th ed. Washington: ASM (1) (Association for Systems Management) An international membership organization based in Cleveland, Ohio. Founded in 1947 and disbanded in 1996, it sponsored conferences in all phases of administrative systems and management. Press; 1995. p. 483-91. (19.) Humphrey TJ. An appraisal of the efficacy of pre-enrichment for the isolation of Campylobacter jejuni from water and food. Journal of Applied Bacteriology bacteriology Study of bacteria. 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The role of poultry and meats in the etiology of Campylobacter jejuni/coli enteritis. Am J Public Health 1986;76:407-11. (31.) Deming MS, Tauxe RV, Blake PA. Campylobacter enteritis at a university from eating chickens and from cats. Am J Epidemiol 1987; 126:526-34. (32.) Schmid GP, Schaefer RE, Plikaytis BD, Schaefer JR, Bryner JH, Wintermeyer LA, et al. A one-year study of endemic campylobacteriosis in a midwestern city: association with consumption of raw milk. J Infect Dis 1987;156:218-22. (33.) Lighton LL, Kaczmarski EB, Jones DM. A study of risk factors for Campylobacter infection in spring. Public Health 1991; 105:199-203. (34.) Saaed AM, Harris NV, DiGiacomo RF. The role of exposure to animals in the etiology of Campylobacter jejuni/coli enteritis. Am J Epidemiol 1993; 137:108-14. (35.) Nielsen EM, Engberg J, Madsen M. Distribution of serotypes of Campylobacter jejuni and C. coli from Danish patients, poultry, cattle, and swine. FEMS Immunol Med Microbiol 1997; 19:47-56. (36.) 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Prevalence. biotypes, plasmid profile and antimicrobial resistance of Campylobacter isolated from wild and domestic animals from northeast Portugal. Journal of Applied Bacteriology 1992;73:279-85. (39.) Jacobs-Reitsma WF, van de Giessen AW, Bolder NM, Mulder RWAW. Epidemiology of Campylobacter spp. at two Dutch broiler broiler a young (about 8 weeks old) male or female chicken weighing 3 to 3.5 lb. farms. Epidemiol Infect 1995; 114:413-21. (40.) Kaino K, Hayashidani H, Kaneko K, Ogawa M. Intestinal colonization of Campylobacter jejuni in chickens. Japanese Journal of Veterinary Science 1988;50:489-94. (41.) Humphrey T J, Henley A, Lanning DG. The colonization of broiler chickens with Campylobacter jejuni; some epidemiologic investigations. Epidemiol Infect 1993; 110:601-7. (42.) Kapperud G, Skjerve E, Vik L, Hauge K, Lysaker A, Aalmen I, et al. Epidemiological investigation of risk factors for Campylobacter colonization in Norwegian broiler flocks. Epidemiol Infect 1993; 111:45-55. 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Isolation of Campylobacter jejuni from milk during an outbreak of campylobacteriosis. J Infect Dis 1984; 150:789. (55.) Lammerding AM, Garcia MM, Mann ED, Robinson Y, Dorward WJ, Truscott RB, et al. Prevalence of Salmonella and thermophilic Campylobacter in fresh pork, beef, veal, and poultry in Canada. Journal of Food Protection 1988;51:47-52. (56.) Stem NJ. Mucosal competitive exclusion to diminish colonization of chickens by Campylobacter jejuni. Poult poult a young turkey. Sci 1994;73:402-7. (57.) Widders PR, Perry R, Muir WI, Husband AJ, Long KA. Immunization of chickens to reduce intestinal colonization with Campylobacter jejuni. Br Poult Sci 1996;37:765-8. (58.) Stem NJ, Clavero MRS MRS - Modifiable Representation System. An integration of logic programming into Lisp. ["A Modifiable Representation System", M. Genesereth et al, HPP 80-22, CS Dept Stanford U 1980]. , Bailey JS, Cox NA, Robach MC. Campylobacter spp. in broilers on the farm and after transport. Poult Sci 1995;74:937-41. (59.) Izat AL, Gardner FA, Denton JH, Golan FA. Incidence and levels of Campylobacter jejuni in broiler processing. Poult Sci 1988;67:1568-72. (60.) Acuff GR, Vanderzant C, Hanna MO, Ehlers JG, Golan FA, Gardner FA. Prevalence of Campylobacter jejuni in turkey carcasses during further processing of turkey products. Journal of Food Protection 1986;49:712-7. (61.) Oosterom J, De Wilde GJA GJA Ghana Journalists Association GJA Garfield Jubilee Association GJA Georgia Jail Association GJA Georgia Jewelers Association GJA Ghana Judo Association GJA Good Job All GJA Grand Jurors Association GJA Global Jurist Advances GJA Gender Justice Awards , De Boer E, De Blaauw LH, Karman H. Survival of Campylobacter jejuni during poultry processing and pig slaughtering. Journal of Food Protection 1983 ;46:702-6. (62.) Li YB, Walker JT, Slavik MF, Wang H. Electrical treatment of poultry chiller water to destroy Campylobacter jejuni. Journal of Food Protection 1995;58:1330-4. (63.) Mead GC, Hudson WR, Hinton MH. Effect of changes in processing to improve hygiene control on contamination of poultry carcasses with Campylobacter. Epidemiol Infect 1995; 115:495-500. (64.) Epling LK, Carpenter JA, Blankenship LC. Prevalence of Campylobacter spp. and Salmonella spp. on pork carcasses and the reduction effected by spraying with lactic acid. Journal of Food Protection 1993;56:536-7,540. (65.) Patterson MF. Sensitivity of Campylobacter spp. to irradiation in poultry meat. Letters in Applied Microbiology 1995;20:338-40. Sean F. Altekruse,(*) Norman J. Stern,([dagger]) Patricia I. Fields,([double dagger]) and David L. Swerdlow([double dagger]) (*) U.S. Food and Drug Administration, Blacksburg, Virginia, USA; ([dagger]) U.S. Department of Agriculture, Athens, Georgia, USA; and ([double dagger]) Centers for Disease Control and Prevention, Atlanta, Georgia, USA Dr. Altekruse is a Public Health Service Epidemiology Fellow with the Food and Drug Administration, Center for Veterinary Medicine Center for Veterinary Medicine regulates the manufacture and distribution of food additives and drugs that will be given to animals. These include animals from which human foods are derived, as well as food additives and drugs for pet (or companion) animals. . His current research interest is antimicrobial-resistant foodbome pathogens. Address for correspondence: Sean Altekruse, Virginia-Maryland Regional College of Veterinary Medicine The Virginia-Maryland Regional College of Veterinary Medicine is a unique college in that it is a state supported college of two states, Virginia and Maryland, filling the need for veterinary medicine education in both states. , Duckpond Road, Blacksburg, VA, 24060, USA; fax: 540-231-7367; e-mail: saltekru@vt.edu. |
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