Coxiella burnetii in bulk tank milk samples, United States.Dairy cattle are a primary reservoir of Coxiella burnetii Coxiella burnetii Infectious disease The single species of genus Coxiella, family Rickettsiaceae, a short, rod-shaped bacterium; it is global in distribution, causes Q fever, spreads by aerosol, primarily infects cattle, sheep, goats, multiplies well in the , which causes Q fever Q fever: see rickettsia. . However, no recent nationwide studies have assessed the prevalence and risks of Q fever in dairy cattle. We report [greater than or equal to] 94% prevalence in samples of bulk tank milk from U.S. dairy herds tested during the past 3 years. ********** Q fever is a ubiquitous zoonosis Zoonosis Definition Zoonosis, also called zoonotic disease refers to diseases that can be passed from animals, whether wild or domesticated, to humans. Caused by Coxiella burnetii, an obligate obligate /ob·li·gate/ (ob´li-gat) pertaining to or characterized by the ability to survive only in a particular environment or to assume only a particular role, as an obligate anaerobe. intracellular rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. organism. Since the first independent reports by Australian and American investigators in 1935, Q fever has been found throughout the world, except New Zealand New Zealand (zē`lənd), island country (2005 est. pop. 4,035,000), 104,454 sq mi (270,534 sq km), in the S Pacific Ocean, over 1,000 mi (1,600 km) SE of Australia. The capital is Wellington; the largest city and leading port is Auckland. (1). C. burnetii infections have been reported in humans, farm animals, pet animals, wild animals, and arthropods (2). Among farm animals, dairy cattle, sheep, and goats are the major reservoirs of C. burnetii. Animals are often naturally infected but usually do not show typical symptoms of C. burnetii infection. Clinical signs of C. burnetii infection are abortion in sheep and goats and reproductive disorders in cattle (1,3). C. burnetii can be isolated from the blood, lungs, spleen, and liver of infected animals in the acute phase of the disease. The uterus and mammary glands are primary sites of infection in the chronic phase of C. burnetii. Shedding of C. burnetii into the environment occurs mainly during parturition parturition or birth or childbirth or labour or delivery Process of bringing forth a child from the uterus, ending pregnancy. It has three stages. by birth products, particularly the placenta of sheep. Also, shedding of C. burnetii in milk by infected dairy cattle is well documented (1,3). Previous studies on the prevalence of C. burnetii in dairy cattle were based mainly on serologic tests, including complement fixation, indirect immunofluorescent 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. ), and 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. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ). However, 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 C. burnetii infection in cattle varies widely from 1 country to another and from 1 state to another in the United States. In Japan, a prevalence of 1.1% to 3.9% of C. burnetii infection in cattle was reported in the 1950s. However, a 1992 survey reported that 29.5% of healthy cattle and 84.3% of cattle with reproductive disorders in Japan had antibodies to C. burnetii shown by using IFA (4). In Canada, 67% of the 200 dairy herds were ELISA-positive for antibodies to C. burnetii (5). The reported seroprevalence of Q fever in the United States varies from 1% to 73%. Reports from the same state show wide differences depending on testing methods and the year of surveys; for example, the seroprevalence in Wisconsin was 33% in 1957 but 73% in 1962 (6). Seroepidemiologic studies have indicated that C. burnetii antibody seroprevalence in cattle has increased from the prevalence 20 or 30 years ago (7). However, the real prevalence of C. burnetii infection in cattle is not available, due in part to the lack of surveillance (8). Shedding of C. burnetii in milk by infected cattle was shown in studies conducted during the 1940s and 1950s. Isolation of the Q fever agent by laboratory workers is difficult because the agent has a high infectivity rate, it is cumbersome in in vitro culture conditions, and handling it requires rigorous compliance requirements. Q fever is considered a "select agent" because it can potentially be used in bioterrorism and its handling is federally regulated. Recently, 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) ) assays have been used to detect C. burnetii (9). A trans-PCR assay was implemented to detect C. burnetii in milk by targeting a transposon-like sequence found only in C. burnetii (10). The trans-PCR assay detects C. burnetii in samples immediately, unlike 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. assays that detect antibodies that could have been introduced months earlier. A real-time PCR assay targeting IS1111 was developed in this study to measure amounts of C. burnetii shed in milk. Our study was to assess the prevalence of C. burnetii in bulk milk samples from dairy herds in the United States by using PCR. The Study The samples in this study were somatic cells extracted from bulk tank milk aliquots submitted to the New York State Animal Health Diagnostic Laboratory to detect bovine viral diarrhea that persistently infected lactating lac·tate 1 intr.v. lac·tat·ed, lac·tat·ing, lac·tates To secrete or produce milk. [Latin lact dairy cattle. The samples tested do not represent a random sampling, as tests were done only on samples available. The samples are heavily weighted to the Northeast, but some are from the Midwest and West. We tested 316 bulk tank milk samples from dairy herds in the United States during a 3-year period from January 2001 to December 2003 by using trans-PCR (Figure). Positive results were confirmed by nested PCR and DNA sequencing. The sequencing results of the 687-bp PCR product were consistent with the published sequence of IS1111 with 100% homology. A summary of the PCR test results of the bulk tank samples is shown in Table 1. The overall prevalence of C. burnetii in the tested samples was 94.3% with little variation (93.2% to 94.7%) from year to year. Samples from New York State did not show significant variation from other states, which indicates that C. burnetii infection in the dairy herds was persistent or steady, with little temporal or regional variations. Milk samples were collected 6 times from 2002 to 2004 from specific cattle in a small, C. burnetii-positive dairy to monitor the infection in specific cattle. A summary of the results of tests on milk samples from specific cattle is presented in Table 2. While 28 (52.8%) of 53 cattle were C. burnetii positive in 2002, 23.5% and 31.3% of the cattle were positive in 2003 and 2004, respectively. Daily and weekly shedding levels of 5 C. burnetii- positive cattle were assayed by real-time PCR. Real-time PCR was conducted by using the primers and probe designed by the Primer Express program (Applied Biosystems, Foster City, CA). The primer set consisted of primers trans-f (5'-GGGTAAAACGGTGGAACA ACA-3') and trans-r (5'-ACAACCCCCGAATCTCATTG-3'). The internal probe trans-p (5'-AACGATCGCGTATCTTTAACAGCGCTTG-3') was labeled with the reporter dye 5-carboxyfluoroscein (FAM FAM 5-FU, adriamycin/doxorubicin, mitomycin C Oncology A chemotherapeutic regimen used with varying degrees of failure for advanced gastric CA. See Stomach cancer. ) on the 5' end and the quencher quench tr.v. quenched, quench·ing, quench·es 1. To put out (a fire, for example); extinguish. 2. To suppress; squelch: dye N', N', N', N'-tetramethyl-6-carboxyrhodamine (TAMRA TAMRA Technical And Miscellaneous Revenue Act of 1988 TAMRA Tetramethyl-6-Carboxyrhodamine (dye) ) at the 3' end. The reactions and assay conditions were according to the manufacturer's instructions (Applied Biosystems). Each cattle shed a similar amount of C. burnetii daily over 7 days; weekly shedding over 4 weeks was also similar. Shedding levels of positive cattle were estimated to be [10.sup.1]-[10.sup.4] cells/mL each. The bulk tank milk samples of the herd stayed at a level of [10.sup.2] cells/mL over 3 years. Conclusions Bulk tank milk has been used for surveillance samples in dairy herds for several bovine diseases including bovine viral diarrhea. More than 90% of U.S. dairy herds sampled were infected with C. burnetii based on bulk tank milk testing over a 3-year period. This high prevalence did not show temporal or regional variation, suggesting that C. burnetii infections in dairy herds are common throughout the United States. Our report of C. burnetii in dairy herds is not surprising if earlier reports regarding an increase of bovine infection in North America are considered. An early investigator concluded that C. burnetii was endemic throughout the United States in the 1950s The 1950s are noted in United States history as a time of both compliance and conformity and also, to a lesser extent, of rebellion. Major U.S. events during the decade included:
se·ro·pos·i·tive adj. cattle, and 82% of 1,052 specific cattle from the herds were seropositive (12). An increase in the prevalence of Q fever from 2.3% in 1964 to 66.8% in 1984 was reported in Ontario dairy herds (13). Our study found a notable decrease in shedding of C. burnetii in milk by specific cattle from 52.8% to 23.5% over 3 years (Table 2). This decrease was not because animals stopped shedding the organism but because uninfected animals replaced shedding animals with an average annual replacement rate of 30%. With the exception of the first year of our study, the shedding rate appeared to be steady at 20% to 30% over 2 years. A similar shedding rate was found in a California study; 23% of 840 cattle were shedding C. burnetii in their milk (13). Continual daily and weekly shedding in the milk by the infected cattle suggests chronic infection by C. burnetii. Chronic C. burnetii infection of dairy cattle could be the most important source of human infection simply based on sheer numbers (1). Extrapolation (mathematics, algorithm) extrapolation - A mathematical procedure which estimates values of a function for certain desired inputs given values for known inputs. If the desired input is outside the range of the known values this is called extrapolation, if it is inside then of our data to the national dairy herd suggests that nearly 3 million lactating cattle are shedding C. burnetti daily. Though the mode and extent of transmission from bovine to human has not been determined, epidemiologic studies indicate that Q fever develops in farmers, veterinarians, and slaughterhouse slaughterhouse: see abattoir; meatpacking. workers who are in contact with domestic animals (14). While infection from commercial milk is unlikely because of the pasteurization pasteurization (păs'ch  rĭzā`shən, -rīzā`shən), partial sterilization of liquids such as milk, orange juice, wine, and beer, as well as cheese, to destroy process, 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 raw milk has been linked to higher seroprevalence rates. In the aftermath of September 11, 2001, and the anthrax incidents, the use of biologic warfare is no longer a distant possibility. C. burnetii is considered a potential bioterrorism agent because of its high infectivity (a single organism may cause disease in human), its ease of dispersion in aerosols (because of its small, sporelike structure), and its resistance to extreme environmental conditions and chemicals (15). Therefore, further investigations are needed to determine the implications of the high prevalence of C. burnetii in dairy herds, to address the potential risk to public health, and to be prepared for outbreaks and bioterrorism events. Currently, no commercial vaccines are available for cattle, and no effective treatment protocol exists for infected animals. [FIGURE OMITTED]
Table 1 Prevalence of Q fever in bulk tank milk of U.S. dairy herds
(2001-2003)
Year State No. of samples Positive (%) Negative (%)
2001 New York State 20 18 (90.0) 2 (10.0)
Other states * 24 23 (95.8) 1 (4.2)
Subtotal 44 41 (93.2) 3 (6.8)
2002 New York State 61 58 (95.1) 3 (4.9)
Other states * 60 56 (93.3) 4 (6.7)
Subtotal 121 114 (94.2) 7 (5.8)
2003 New York State 43 40 (93.0) 3 (7.0)
Other states * 108 103 (95.4) 5 (4.6)
Subtotal 151 143 (94.7) 8 (5.3)
Total 316 298 (94.3) 18 (5.7)
* CA, CT, CO, IL, IN, MA, MD, MI, MN, MO, NC, OH, PA, UT, VA,
VT, WA, WI.
Table 2. Q fever infection rate of specific cows in a bulk
tank-positive dairy herd based on Coxiella bumedi shedding
in their milk over 3 years (2002-2004)
Month/year No. of
collected samples Positive (%) Negative (%)
Jul 2002 53 28 (52.8) 25 (52.8)
Aug 2002 53 28 (52.8) 25 (52.8)
Sep 2003 51 16 (31.3) 35 (68.6)
Dec 2003 48 14 (29.2) 34 (70.8)
Feb 2004 52 13 (25.0) 39 (75.0)
Jul 2004 34 8 (23.5) 26 (76.5)
References (1.) Maurin M, Raoult D. Q fever. Clin Microbiol Rev. 1999;12:518-53. (2.) Hirai K, To H. Advances in the understanding of Coxiella burnetii infection in Japan. J Vet Med Sci. 1998;60:781-90. (3.) Babudieri B. Q fever: a zoonoisis. Adv Vet Sci. 1959;5:81-182. (4.) Htwe KK, Amano K, Sugiyama Y, Yagami K, Minamoto N, Hashimoto A, et al. Seroepidemiology of Coxiella burnetii in domestic and companion animals in Japan. Vet Rec. 1992; 131:490. (5.) Lang GH. Serosurvey on the occurrence of Coxiella burnetii in Ontario cattle. Can J Public Health. 1988;79:56-9. (6.) Wisniewski H, Krumbiegel ER. Q fever in the Milwaukee area. Arch Environ Health. 1970;21:58-62. (7.) Lang GH. Coxiellosis (Q fever) in animals. In: Marrie TJ, editor. Q fever, vol I. The disease. Boca Raton (FL): CRC (Cyclical Redundancy Checking) An error checking technique used to ensure the accuracy of transmitting digital data. The transmitted messages are divided into predetermined lengths which, used as dividends, are divided by a fixed divisor. Press; 1990. p. 23-48. (8.) McQuiston JH, Childs JE. Q fever in humans and animals in the United States. Vector Borne Zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis Dis. 2002;2:179-91. (9.) Hoover TA, Vodkin MH, Williams JC. A Coxiella burnetii repeated 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. element resembling a bacterial insertion sequence. J Bacteriol. 1992;174:5540-8. (10.) Willems H, Thiele D, Frolich-Ritter R, Krauss H. Detection of Coxiella burnetii in cow's milk using the polymerase chain reaction (PCR). J Vet Med B. 1994;41:580-7. (11.) Luoto L. Report on the nationwide occurrence of Q fever infections in cattle. Public Health Rep. 1960;75:135-40. (12.) Biberstein EL, Behymer DE, Bushnell, R, Crenshaw G, Riemann HP, Franti CE. A survey of Q fever (Coxiella burnetii) in California dairy cows. Am J Vet Res. 1974;12:1577-2. (13.) Lang GH. Q fever: an emerging public health concern in Canada. Can J Vet Res.1989;53:l-6. (14.) Ormsbee RA, Marmion BP. Prevention of Coxiella burnetii infection: vaccines and guidelines for those at risk. In: Marrie TJ, editor. Q fever, vol I. The disease. Boca Raton (FL): CRC Press; 1990. p. 225-48. (15.) Franz DR, Jahrling PB, Friedlander AM, McClain DJ, Hoover DL, Bryne WR, et al. Clinical recognition and management of patients exposed to biological warfare agents. JAMA JAMA abbr. Journal of the American Medical Association . 1997;278:399-411. Sung Guk Kim, * Eun Hee Kim, * Caroline J. Lafferty, * and Edward Dubovi * * Cornell University, Ithaca, New York
For other places or objects named Ithaca, see Ithaca (disambiguation). , USA Dr. Sung Guk Kim is director of molecular diagnostic section at the Animal Health Diagnostic Laboratory, College of Veterinary Medicine, Cornell University. He is interested in infectious animal diseases and zoonoses Zoonoses Infections of humans caused by the transmission of disease agents that naturally live in animals. People become infected when they unwittingly intrude into the life cycle of the disease agent and become unnatural hosts. . Address for correspondence: Sung Guk Kim, Molecular Diagnostic Laboratory, AHDL AHDL - Analog Hardware Design Language , Department of Population Medicine and Diagnostic Science, College of Veterinary Medicine, Cornell University, Ithaca, NY 14853, USA; fax: 607-253-3943; email: sgkl@cornell.edu |
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