Use of Antimicrobial Growth Promoters in Food Animals and Enterococcus faecium Resistance to Therapeutic Antimicrobial Drugs in Europe.Supplementing animal feed with antimicrobial agents to enhance growth has been common practice for more than 30 years and is estimated to constitute more than half the total antimicrobial use worldwide. The potential public health consequences of this use have been debated; however, until recently, clear evidence of a health risk was not available. Accumulating evidence now indicates that the use of the glycopeptide avoparcin as a growth promoter has created in food animals a major reservoir of Enterococcus faecium Enterococcus faecium A nosocomial pathogen resistant to most antibiotics–eg, penicillin, teicoplanin, aminoglycosides, glycopeptides; ID of E faecium in a clinical specimen requires Pt isolation with barrier precautions. , which contains the high level glycopeptide resistance determinant vanA, located on the Tn1546 transposon transposon /trans·po·son/ (trans-po´zon) a small mobile genetic (DNA) element that moves around the genome or to other genomes within the same cell, usually by copying itself to a second site but sometimes by splicing itself out of its . Furthermore, glycopeptide-resistant strains, as well as resistance determinants, can be transmitted from animals to humans. Two antimicrobial classes expected to provide the future therapeutic options for treatment of infections with vancomycin-resistant enterococci enterococci bacteria in the genus Enterococcus. have analogues among the growth promoters, and a huge animal reservoir of resistant E. faecium has already been created, posing a new public health problem. Vancomycin-Resistant Enterococcus vancomycin-resistant enterococcus Infectious disease An enterococcus, primarily Enterococcus faecium, resistant to most antibiotics, including aminoglycosides and vancomycin, once a 'last-resort' agent; VRE is primarily nosocomial, in long faecium (VRE VRE vancomycin-resistant enterococcus. VRE Vancomycin-resistent enterococcus, see there ) In addition to being a member of the normal gut flora of nearly all warm-blooded animals (including humans), E. faecium has the ability to cause a wide range of infections, primarily serious infections in hospital patients (particularly in intensive care units). Increasing incidence of E. faecium infections has been associated with use of third-generation cephalosporins Cephalosporins Definition Cephalosporins are medicines that kill bacteria or prevent their growth. Purpose Cephalosporins are used to treat infections in different parts of the body—the ears, nose, throat, lungs, sinuses, and in hospitals (1). Enterococci are resistant to many antibiotics. In an increasing number of cases, vancomycin vancomycin (văn'kōmī`sĭn), antibiotic resembling penicillin in the way it acts. It is derived from the bacterium Streptomyces orientalis, which was isolated from soil of India and Indonesia. is the only treatment drug that remains effective. Because E. faecium was untreatable Un`treat´a`ble a. 1. Incapable of being treated; not practicable. with practically all other antibiotics, the emergence of the first high level vancomycin-resistant E. faecium was of particular concern (2). By 1997, more than 15% of nosocomial nosocomial /noso·co·mi·al/ (nos?o-ko´me-il) pertaining to or originating in a hospital. nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. enterococcal infections in U.S. hospitals were due to VRE (3). The vancomycin-resistant strain of E. faecium (VRE) contains the VanA gene cluster located at a mobile genetic element, a transposon designated Tn1546. Although other mechanisms and determinants of glycopeptide resistance have been found in E. faecium, in this article, VRE will refer to strains containing the vanA gene and Tn1546. First isolated in France in 1986, VRE were subsequently found in the United States in 1989, where they rapidly became a frequent cause of hospital infections (3). Like many other nosocomial pathogens, VRE were believed to originate and be maintained in hospitals and to have little, if any, association with the community. Nosocomial outbreaks and clonal spread in the United States supported this assumption (4). In Europe, however, even though serious incidents have occurred in some countries, VRE-associated hospital infections have not increased at the same rate and to the same proportion as in the United States (5). The first indication that the epidemiology of VRE may differ from that of other gram-positive organisms capable of causing hospital infections (e.g., methicillin-resistant Staphylococcus aureus methicillin-resistant Staphylococcus aureus Methicillin-aminoglycoside resistant Staphylococcus aureus, MRSA An organism with multiple antibiotic resistances–eg, aminoglycosides, chloramphenicol, clindamycin, erythromycin, rifampin, tetracycline, ) came from the United Kingdom, where Bates Bates , Katherine Lee 1859-1929. American educator and writer best known for her poem "America the Beautiful," written in 1893 and revised in 1904 and 1911. et al. (6) reported isolating VRE from pig herds as well as from the farm environment. These scientists suggested that a community source of VRE may exist. Soon afterwards, Klare et al. (7) in Germany showed that VRE could be cultured frequently from pigs, poultry, and humans in the community and suggested that VRE may be associated with the use of glycopeptides as growth promoters in food animals. Antimicrobial Growth Promoters Antimicrobial growth promoters (AGPs) are antibiotics added to the feed of food animals to enhance their growth rate and production performance. The mechanism by which AGPs work is not clear. AGPs reduce normal intestinal flora (which compete with the host for nutrients) and harmful gut bacteria (which may reduce performance by causing 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). The effect on growth may be due to a combination of both fewer normal intestinal flora and fewer harmful bacteria. The class of antimicrobial drugs used and the animal species involved may determine the relative importance of each mechanism (8). The quantity used in feed varies with each antimicrobial agent. In the European Union European Union (EU), name given since the ratification (Nov., 1993) of the Treaty of European Union, or Maastricht Treaty, to the European Community (EU), avoparcin 20 mg/kg and 40 mg/kg was approved for different age groups of pigs and chickens; the concentration is often referred to as "subtherapeutic sub·ther·a·peu·tic adj. Below the dosage levels used to treat diseases: subtherapeutic feeding of penicillin to livestock. sub " (not to be confused with sub-MIC levels). The resulting concentration in the gastrointestinal tract gastrointestinal tract n. The part of the digestive system consisting of the stomach, small intestine, and large intestine. Gastrointestinal tract of the animal is sufficient to inhibit the susceptible bacteria and markedly affect the composition of the bacterial gut flora (8). In Denmark, as well as in other countries, only a few glycopeptides have been used; for humans vancomycin and (to a lesser extent) teicoplanin have been used, and for animals avoparcin has been used exclusively as a feed additive for growth promotion. Avoparcin has not been used in animals in Sweden since 1986 because of a national prohibition of AGPs; in the United States, avoparcin was never approved because of its carcinogenic carcinogenic having a capacity for carcinogenesis. effects (9). Few countries have accurate data on the use of antibiotics in animals and humans. In Denmark, 24 kg of active vancomycin was used for human therapy in 1994. In comparison, 24,000 kg of active avoparcin was used as a feed additive for animals (10). In Austria, an average of 582 kg of vancomycin was imported for medical purposes and 62,642 kg of avoparcin for animal husbandry animal husbandry, aspect of agriculture concerned with the care and breeding of domestic animals such as cattle, goats, sheep, hogs, and horses. Domestication of wild animal species was a crucial achievement in the prehistoric transition of human civilization from per year from 1992 to 1996 (11). Thus, although there are more food animals than humans, the selective pressure favoring VRE in Europe can be estimated to be much higher in food animals than in humans. Data on the yearly use of vancomycin in the United States and in major European countries were recently published by Kirst et al. (12). Denmark, a small country, used more glycopeptide growth promotant (avoparcin) than all of Europe and the United States used for treating ill humans (vancomycin). Difference in denominators implies huge difference in use (10). Use of Avoparcin as a Growth Promoter and the Occurrence of VRE in Food Animals The high selective pressure by the use of glycopeptides as growth promoters could explain the presence of VRE in food animals. We have conducted a number of studies to investigate the association between the use of avoparcin as a growth promoter and the occurrence of VRE. In one study, eight poultry flocks raised conventionally and six raised without growth promoters were compared (13). No VRE was found in birds raised without growth promoters, whereas five out of eight conventional flocks contained VRE. Isolation rates in positive flocks were as follows: of five fecal samples tested, one to four (20%-80%) were positive. Twenty-two pig herds and 24 poultry flocks, half of which had used avoparcin and half of which had not, were compared by occurrence of VRE in fecal samples collected from animals of the herds and flocks. A strong and statistically highly significant association between the presence of VRE and the use of avoparcin was observed (14). Of 12 pig herds using feed with avoparcin, 8 had VRE, while of 10 herds not using avoparcin, 2 had VRE (p = 0.043, risk ratio [RR] 3.3; 95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. [CI]: 1.1, 10.0). In broiler broiler a young (about 8 weeks old) male or female chicken weighing 3 to 3.5 lb. farms where avoparcin was used, VRE was isolated from 11 of 12 fecal samples. In farms where avoparcin was not used, VRE was isolated in 2 of 12 samples (p [is less than] 0.0006; RR 5.5; 95% CI: 2.2, 13.9). The association observed at the flock and herd level has also been observed at the country level. In countries where avoparcin had been used as a growth promoter, VRE could frequently be cultured from food animals, whereas in countries where avoparcin had not been used, VRE were not detected (Table 1). These findings are consistent with the hypothesis that use of avoparcin has created a reservoir for VRE in food animals. Table 1. Avoparcin as a growth promoter in countries where the occurrence of vancomycin-resistant enterococci (VRE) in animal husbandry has been investigated
VRE in
Avoparcin animal
Country used husbandry Ref.
Belgium + + 15
Denmark + + 13, 14
Finland + + 16
France + + 17
Germany + + 7
Great Britain + + 6
The Netherlands + + 18
Norway + + 19
Sweden - - 20
United States - - 21, 22
Transmission of VRE from Animals to Humans Can an animal reservoir in itself be regarded a public health risk? What are the chances that VRE or the resistance genes will be transmitted from animals to humans? A public health risk must be assumed to exist when transfer from animals to humans can be shown directly or indirectly. VRE are frequently present in food produced in Denmark as well as in food imported into Denmark from other European countries (23,24). Thus, exposure to humans from insufficiently heated food or cross-contaminated ready-to-eat food takes place. Unlike studies in the United States (21,25), European studies reported that humans frequently are fecal carriers of VRE (26-29). This suggests that VRE can be ingested in·gest tr.v. in·gest·ed, in·gest·ing, in·gests 1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat. 2. from food in Europe. Furthermore, VRE was not detected in strict vegetarians in The Netherlands, supporting the view that the source of VRE is contaminated meat (Table 2) (28). Table 2. Prevalence of vancomycin-resistant Enterococcus faecium in fecal samples of residents in a vegetarian and nonvegetarian nursing home, The Netherlands (28)
No. E.
No. persons faecium No. VRE
investigated positive positive(a,b)
Vegetarians 42 23 0
Nonvegetarians 62 32 6
(a) P < 0.05. (b) All VRE-positive samples were E. faecium. Molecular typing shows a very high diversity of VRE types in animals as well as humans (30). Nevertheless, similar or related types have been shown to occur in animals and humans on a number of occasions, supporting the assumption that transfer of VRE between humans and animals does take place (18,19). We have recently compared 84 isolates of E. faecium from swine, chickens, and humans in Denmark by SmaI generated macrorestriction profiles and EcoRI ribotyping. Similarity analysis by unweighted pair group method with arithmetic averages-derived dendrograms did not indicate a higher degree of similarity among E. faecium isolates (VRE as well as non-VRE) from humans than from animals. This finding indirectly supports the hypothesis that E. faecium from different food animals and humans are not discrete populations but belong to a common pool of E. faecium shared by animals and humans (data not shown). [ILLEGIBLE il·leg·i·ble adj. Not legible or decipherable. il·leg  i·bil TEXT] on a transposon designated Tn1546 (32,33). Tn1546
can easily spread from one enterococcal species to another as well as
from enterococci to S. aureus The aureus (pl. aurei) was a gold coin of ancient Rome valued at 25 silver denarii. The aureus was regularly issued from the 1st century BC to the beginning of the 4th century AD, when it was replaced by the solidus. (33,34). Recent investigations have
documented that in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. transfer of Tn1546 can take place in the mammalian intestinal tract (A. Sundsfjord, pers. comm.). Furthermore, animal VRE can colonize col·o·nize v. col·o·nized, col·o·niz·ing, col·o·niz·es v.tr. 1. To form or establish a colony or colonies in. 2. To migrate to and settle in; occupy as a colony. 3. the human intestinal tract for at least 3 weeks after experimental 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 [10.sup.7] CFUs of a single strain (35). This indicates that vancomycin resistance can spread in the gastrointestinal tract from transiently colonizing animal VRE to E. faecium strains of the resident human gut flora. The VanA gene cluster consists of several genes. We investigated the genes and the regions between them by sequencing of selected areas, 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 amplification of other areas, and hybridization hybridization /hy·brid·iza·tion/ (hi?brid-i-za´shun) 1. crossbreeding; the act or process of producing hybrids. 2. molecular hybridization 3. with specific probes (36,37). Thirteen different types were observed. Most differences arose from the presence of insertions or deletions in noncoding intergenic regions. One nucleotide difference was observed in the coding sequences; this point mutation point mutation n. A mutation that involves a single nucleotide and may consist of loss of a nucleotide, substitution of one nucleotide for another, or the insertion of an additional nucleotide. occurred in the vanX gene at position 8234, where a G in the reference VRE strain was substituted for a T in some isolates. In human VRE isolates, this mutation was evenly distributed, whereas in poultry isolates from different countries only the G variant occurred; in isolates from swine from different countries the T variant occurred in nearly all isolates (Table 3). Although we have no explanation for the uneven distribution of subtypes between different animals, the finding of both types in humans does support the hypothesis that animals are a primary source of vancomycin resistance genes in humans, whereas humans apparently do not serve as reservoir for animals, in which case both types would be expected to occur in both animal species. In the same investigation, we found that all human isolates from a Muslim country belonged to the poultry subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. (37). The absence of pork variant types in a Muslim country suggests that food of animal origin is a major reservoir for VRE in humans. Table 3. Variations in Tn1546-like elements of vancomycin-resistant Enterococcus faecium isolates of animal and human origin (37)
No. T G
Source isolates variant variant
Humans 45 16 29
Pigs 33 32 1
Poultry 193 0 193
Total 271 48 223
The European/American Paradox Even though the greater frequency of VRE infections in U.S. than in European hospitals would seem to contradict it (12), the hypothesis that animals could serve as reservoirs of human VRE infections is supported by several lines of indirect evidence. Heavy use of vancomycin (and probably also third-generation cephalosporins) is a prerequisite for frequent VRE infections in hospitals. Heavy use of vancomycin and third generation cephalosporins is more frequent in U.S. than in European hospitals (12,18). Thus, the problem in Europe, irrespective of a high carrier rate of VRE in the community, has not grown to the same proportions as in the United States. VRE infections in the United States are probably due to the heavy use of antibiotics in hospitals and the eventual spread of VRE within and among hospitals by carrier personnel (38). Another prerequisite for high incidence of VRE hospital infections is a source of VRE. In the United States, primary sources of VRE to hospitals include travelers returning from abroad, tourists, and imported food. Once inside the hospital, VRE can cause nosocomial outbreaks because of its high potential to colonize and persist in the environment, which facilitates its persistence and spread (4). An alternative hypothesis alternative hypothesis Epidemiology A hypothesis to be adopted if a null hypothesis proves implausible, where exposure is linked to disease. See Hypothesis testing. Cf Null hypothesis. could be that some clones of VRE have a higher potential to cause infections and that such clones are more prevalent in United States. This hypothesis, however, is contradicted by the high number of different types of VRE causing infections in Europe and the United States, which suggests that pathogenic potential is not limited to a few clones of VRE (38). Avoparcin was approved for growth promotion in Europe in 1974. The first VRE was detected in a human patient in France in 1986. Does this suggest that VRE was not present in animals before 1986? Historically, resistance to growth promoters in animal bacteria was not monitored, and with few exceptions the studies conducted have looked at bacteria other than enterococci because enterococci were not considered foodborne pathogens. Thus, if VRE were not detected in food animals, it may be because they were not looked for. The Effect of Prohibiting Use of Avoparcin as a Growth Promoter Because of public health concerns about resistance to glycopeptide antibiotic drugs, avoparcin was banned in Denmark in 1995. In 1996, Germany took a similar step, and finally in 1997, avoparcin was banned in all EU member states. After the ban in Denmark, a marked reduction in the occurrence of VRE in Danish poultry flocks has been observed at slaughter (from 82% in 1995 to 12% of flocks in 1998; [x.sup.2] = 68.3 on 5 df.; p [is less than] 0.0001), whereas in swine only a minor reduction has been observed (Figure) (39). In Germany, a decrease in the incidence of VRE in poultry meat and in fecal samples from humans in the community was observed after discontinuation of avoparcin use in animal husbandry (40). In poultry meat the proportion of VRE-positive samples were reduced from 100% in 1994 to 25% in 1997, and in fecal samples from humans in the community, the carrier rate decreased from 12% in 1994 to 3% in 1997. [Figure ILLUSTRATION OMITTED] [ILLEGIBLE TEXT] human therapy. More than 10 years after the first VRE was discovered, the first drug for humans with good clinical effect against VRE infections is ready to be marketed. This drug is a combination of two streptogramins, quinupristin and dalfopristin quinupristin and dalfopristin Synercid Pharmacologic class: Streptogramin Therapeutic class: Anti-infective Pregnancy risk category B FDA Boxed Warning(Synercid).For decades, virginiamycin virginiamycin an antibiotic mixture of virginiamycin M1 and virginiamycin S1, produced in cultures of Streptomyces virginiae; active against gram-positive cocci. Used mostly as a feed additive for pigs to promote growth. , which belongs to the group of streptogramins, has been used as a growth promoter in the European Union as well as in the United States, primarily for poultry production. Investigations in the United States, The Netherlands, and Denmark have frequently found Synercid-resistant E. faecium in poultry (41-43). As for VRE, we have no data on the prevalence of streptogramin-resistant E. faecium in animal husbandry before virginiamycin was used as a growth promoter. No monitoring has been carried out. Moreover, the gene (satA) conferring resistance to virginiamycin and Synercid have been found in animals and humans (44), and in vivo transfer of these genes from resistant to sensitive strains of E. faecium in the mammalian gastrointestinal tract has been shown (45). Thus, the events associated with avoparcin and vancomycin may be recurring for Synercid and virginiamycin. Furthermore, the drug anticipated to be next in line after Synercid, a compound called Ziracin, belonging to the class of eveminomicins, is practically identical to another growth promoter called avilamycin, which has primarily been used in poultry. We have detected avilamycin resistance in 69% of E. faecium isolates from poultry in Denmark (43). Moreover, preliminary investigations show that resistance to avilamycin gives cross-resistance to Ziracin and that a transferable genetic element may be involved (46). Thus, again use of an antimicrobial drug as a growth promoter may have created a major animal reservoir of resistant E. faecium, threatening to shorten the life span of a new promising drug when it is put to use in humans. Future Perspectives At the core of the VRE issue appears to be the way antimicrobial drugs are being developed. New classes of antimicrobial drugs are not available. Instead, old drugs are being modified that may have been used in agriculture as growth promoters for decades because they were not considered useful for humans. Now that physicians are searching for more options in antibiotic treatment, the older drugs may no longer be viable. The use of antimicrobial drugs and development of resistance in animals and humans are interrelated in·ter·re·late tr. & intr.v. in·ter·re·lat·ed, in·ter·re·lat·ing, in·ter·re·lates To place in or come into mutual relationship. in . Therefore, systems to monitor antimicrobial resistance in pathogenic and 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. bacteria should be established. Such systems should cover relevant bacteria from the entire farm-to-fork chain and monitor resistance towards antimicrobial drugs used in both animals and humans, including growth promoters (47-49). Finally, antimicrobial agents should not be used for growth promotion if they are used in human therapeutics or are known to select for cross-resistance to antimicrobial drugs used in human medicine (47). Antimicrobial agents are too valuable to be used as a tool in animal production because any antimicrobial drug may be useful for human therapy in the future even if not used therapeutically today. Adherence to the World Health Organization recommendations (47) will ensure a systematic approach toward replacing antimicrobial growth promoters with safer nonantimicrobial drug alternatives. The EU countries entered this process in December 1998 when four growth promoters (tylosin tylosin an antibiotic produced by cultures of Streptomyces fradiae, with a structure similar to erythromycin. It is effective against gram-positive bacteria generally and especially those susceptible to members of the macrolide group. , spiramycin, bacitracin bacitracin (băs'ĭtrā`sĭn), antibiotic produced by a strain of the bacterial species Bacillus subtilis. It is widely used for topical therapy such as for skin and eye infections; it is effective against gram-positive bacteria, , and virginiamycin) were banned because of their structural relatedness to therapeutic antimicrobial drugs used for humans (50). References (1.) Edmond MB, Ober JF, Weinbaum DL, Pfaller MA, Hwang T, Sanford MD, et al. 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Occurrence of glycopeptide resistance among Enterococcus faecium isolates from ecological and conventional poultry farms. Microb Drug Resist 1995;1:255-7. (14.) Bager F, Madsen M, Christensen J, Aarestrup FM. Avoparcin used as a growth promoter is associated with the occurrence of vancomycin-resistant Enterococcus faecium on Danish poultry and pig farms. Prev Vet Med 1997;31:95-112. (15.) Devriese LA, Ieven M, Goosens H, Vandamme P, Pot B, Hommez J, et al. Presence of vancomycin-resistant enterococci in farm and pet animals. Antimicrob Agents Chemother 1996;40:2285-7. (16.) Tast E, Myllys V, Honkanen-Buzalski T. A survey of resistance to some antimicrobials of enterococcal and E. coli E. coli: see Escherichia coli. E. coli in full Escherichia coli Species of bacterium that inhabits the stomach and intestines. E. coli can be transmitted by water, milk, food, or flies and other insects. strains isolated from pigs and broilers in Finland. 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Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : World Health Organization; 1997. (48.) The role of international trade in animals, animal products and feed in the spread of transferable antimicrobial resistance and possible methods for control of the spread of infectious agent infectious agent Pathogen, see there resistance factors. In: Proceedings of the 18th Conference of the Office International des Epizooties (OIE OIE Office International des Épizooties (French: International Office of Epizootics; Paris) OIE Oficina Internacional de Epizootias (Spanish: World Organization for Animal Health) ) Regional Commission of Europe; 1998 Sep 22-25; Prague, Czech Republic. (49.) The Copenhagen recommendation. Report from the invitational EU conference on the microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. threat; 1998 Sep 9-10; Copenhagen, Denmark. (Internet address http://www.sum.dk/publika/micro98/index.htm). (50.) Commission regulation of amending council directive 70/524/EEC concerning additives in feedingstuffs as regards withdrawal of the authorisation of certain antibiotics. Document No.: VI/7767/98. European Commission, Brussels, Belgium. Comments/Responses Have a comment on this article? Please use this form to reply. We're always happy to hear your voice. [ILLUSTRATION OMITTED] Home | Top of Page | current Issue | Expedited | Upcoming Issue | Past Issue | EID EID Emerging Infectious Diseases (journal) EID Electronic Identification EID Endpoint Identifier EID Employee Identification EID Ecological Interface Design EID Earned Income Disregard EID Education and Information Division Search | Contact Us CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation Home | Search | Health Topics A-Z This page last reviewed July 1, 1999 Emerging Infectious Diseases Journal National Center for Infectious Diseases Centers for Disease Control and Prevention URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. : http://www.cdc.gov/ncidod/eid/vol5no3/wegener.htm Dr. Wegener is head of The Danish Zoonosis Centre. His research interests are veterinary public health, microbiology, epidemiology, molecular biology molecular biology, scientific study of the molecular basis of life processes, including cellular respiration, excretion, and reproduction. The term molecular biology was coined in 1938 by Warren Weaver, then director of the natural sciences program at the Rockefeller ; control of 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. , particularly the so-called "modern" bacterial zoonoses; and potential public health consequences of the use of antimicrobial drugs in animal husbandry. Address for correspondence: Henrik C. Wegener, Danish Zoonosis Centre, Danish Veterinary Laboratory, Bulowsvej 27, DK-1790 Copenhagen V, Denmark; fax: +45-35-300-120; e-mail: hcw@svs.dk. |
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