Attributing illness to food.Identification and prioritization of effective food safety interventions require an understanding of the relationship between food and pathogen Pathogen Any agent capable of causing disease. The term pathogen is usually restricted to living agents, which include viruses, rickettsia, bacteria, fungi, yeasts, protozoa, helminths, and certain insect larval stages. from farm to consumption. Critical to this cause is food attribution, the capacity to attribute cases of foodborne disease to the food vehicle or other source responsible for illness. A wide variety of food attribution approaches and data are used around the world, including the analysis of outbreak data, case-control studies, microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. subtyping and source tracking methods, and expert judgment, among others. The Food Safety Research Consortium sponsored the Food Attribution Data Workshop in October 2003 to discuss the virtues and limitations of these approaches and to identify future options for collecting food attribution data in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. . We summarize workshop discussions and identify challenges that affect progress in this critical component of a risk-based approach to improving food safety. ********** Foodborne microbiologic hazards may be responsible for as many as 76 million cases of illness in the United States each year (1) and are thus an important food safety challenge. To lower the incidence of foodborne disease, many experts and stakeholders Stakeholders All parties that have an interest, financial or otherwise, in a firm-stockholders, creditors, bondholders, employees, customers, management, the community, and the government. urge the development of a science- and risk-based food safety system, in which decision makers prioritize hazards and interventions using the best available data on the distribution and reduction of risks (2,3). Such a system requires an understanding of the many risk factors between the point of production and the point of consumption and the ability to systematically target intervention efforts along this "farm-to-fork" continuum. Although the Foodborne Diseases Active Surveillance Network (FoodNet), administered by 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. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ), is producing increasingly robust data on the incidence of illness due to specific 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, no method exists to categorize these illnesses by mode of transmission, whether 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. , environmental exposure, or consumption of a specific food. Interventions are almost always food (or process) specific. To design and prioritize effective food safety interventions, we must be able to perform food attribution--that is, identify which foods are vehicles for specific cases of illness. Such data are of particular importance for US government agencies that regulate food and food animals, including the Food Safety Inspection Service (FSIS FSIS Food Safety and Inspection Service FSIS Food Safety Information System (of Malaysia) FSIS Fixed-Size Importance Sampling FSIS Functional Support Information Systems FSIS Fire Support Interface Specification ) of the US Department of Agriculture (USDA USDA, n.pr See United States Department of Agriculture. ), and the Center for Food Safety and Applied Nutrition The Center for Food Safety and Applied Nutrition (CFSAN, pronounced sif'-san) is the branch of the Food and Drug Administration (FDA) which regulates food, dietary supplements, and cosmetics. "Food" within the context of FDA is a very broad term with some limitations. (CFSAN CFSAN Center for Food Safety and Applied Nutrition (US FDA) ) and the 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. (CVM) of the Food and Drug Administration (FDA FDA abbr. Food and Drug Administration FDA, n.pr See Food and Drug Administration. FDA, n.pr the abbreviation for the Food and Drug Administration. ). Foodborne illnesses can be attributed to foods by using a variety of data sources and analytic approaches; each has its virtues and limitations. In Atlanta on October 31, 2003, the Food Safety Research Consortium (FSRC FSRC Faculty Staff Resource Center ) sponsored the Food Attribution Data Workshop to explore these approaches in detail. Attendees included representatives from CDC, FSIS, CFSAN, CVM, the Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ), consumer advocacy organizations, and member institutions of FSRC, including the University of Maryland University of Maryland can refer to:
The President of the University of Georgia (as of 2007, Michael F. Adams) is the head administrator and is appointed and overseen by the Georgia Board of Regents. , Iowa State University Academics ISU is best known for its degree programs in science, engineering, and agriculture. ISU is also home of the world's first electronic digital computing device, the Atanasoff–Berry Computer. , University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). at Davis, and Resources for the Future. This article summarizes material discussed at the workshop and identifies challenges that affect progress in this critical component of a risk-based approach to improving food safety. Food Categorization For the purposes of attributing illnesses to foods, food vehicles must be grouped into suitable categories. Although the idea may seem simple, the need for a single food categorization scheme has emerged as a critical issue. At a general level, a list of major food commodities might include 11 categories: poultry, eggs, pork, beef, dairy, fish, mollusks, crustaceans, wild game, row crops (e.g., lettuce and corn), and tree crops (e.g., apples and oranges). Each of these commodities could be divided further, leading to such subcategories as broiler broiler a young (about 8 weeks old) male or female chicken weighing 3 to 3.5 lb. chickens and raw oysters raw oysters food consumed as a love potion. [Popular Folklore: Misc.] See : Aphrodisiacs . Additionally, classification could include level of processing (raw, fresh-cut, canned, frozen), origin (domestic, imported), and location of preparation (home, food processor, food service). When illnesses are linked to foods with multiple ingredients, such as soups or casseroles, the choices include whether to omit these cases from analysis, to categorize multiple-ingredient foods by "essential" ingredient, or to attribute illnesses by the proportion of individual ingredients. A common food categorization scheme is essential if different sources of data are to be combined or compared. Because of lack of agreement in categorization, data from CDC, state health departments, and FDA and USDA and their constituent agencies are often not directly comparable. As a first step in any approach to food attribution, food categories need to be standardized across government agencies, with a scheme acceptable to industry, academia, and consumer groups. Current Approaches to Food Attribution Approaches to food attribution can be grouped into 2 broad categories, loosely designated as epidemiologic and microbiologic. Epidemiologic approaches are based on public health surveillance and include foodborne outbreak data and case-control studies. Microbiologic approaches rely on data on pathogen samples drawn from human, animal, and food sources and include pathogen subtyping, as used in Denmark's Salmonella Accounts (4) and microbial source tracking (MST See micro systems technology. ) methods, as well as risk assessments of specific pathogens in specific foods. Danish Experiences Denmark has an integrated system in which data from public health surveillance and pathogen monitoring of foods and animals are routinely collected, collated, and analyzed by a single coordinating body. Cultures collected from infected persons, animals, and retail food sources are subtyped, allowing for the direct comparison of surveillance and monitoring data and the identification of public health outcomes by food source. The regular monitoring of food sources is performed on farms, at slaughter, and in retail foods, although the emphasis is on primary production facilities (5). Every flock of egg-laying chickens is regularly tested for salmonellae, as are all flocks of broiler chickens, turkeys, and ducks. Finishing pigs are continually tested, dairy herds are routinely monitored, and poultry, pork, and beef are examined during slaughter processes. Imported meat and poultry products are monitored, as are wild animals WILD ANIMALS. Animals in a state of nature; animals ferae naturae. Vide Animals; Ferae naturae. , birds, and pets, and retail surveys are performed on raw meat, pork, poultry, shell eggs, fruits, and vegetables. Salmonella isolates obtained from animal and food sources are subtyped (with serotyping, phage phage: see bacteriophage. phage - A program that modifies other programs or databases in unauthorised ways; especially one that propagates a virus or Trojan horse. See also worm, mockingbird. The analogy, of course, is with phage viruses in biology. typing, and pulsed-field gel electrophoresis gel electrophoresis n. Electrophoresis performed in a gel composed of agarose, polyacrylamide, or starch. [PFGE PFGE Pulsed-Field Gel Electrophoresis ]) and compared in a quantitative manner with isolates obtained from human infections (6). A prerequisite of the model is predominance of at least 1 "distinctive" Salmonella 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. in each main animal reservoir; human infections of distinctive subtypes are assumed to have originated from that reservoir. Human infections caused by Salmonella subtypes found in multiple animal reservoirs are attributed proportionally to the occurrence of the distinctive subtypes. Model results have been corroborated cor·rob·o·rate tr.v. cor·rob·o·rat·ed, cor·rob·o·rat·ing, cor·rob·o·rates To strengthen or support with other evidence; make more certain. See Synonyms at confirm. by case-control studies, outbreak reports, time-series analysis Time-series analysis Assessment of relationships between two or among more variables over periods of time. , and risk assessments (7). In the past 10 years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time Danish model has proven invaluable for identifying pathogen reservoirs in animal populations, tracking trends of human salmonellosis salmonellosis (săl'mənĕlō`sĭs), any of a group of infectious diseases caused by intestinal bacteria of the genus Salmonella, , and guiding interventions (4). One weakness of the Danish method is that causation cannot be discerned for cases without distinctive Salmonella subtypes; thus, the proportional attribution of such cases across animal reservoirs may not necessarily be accurate. Also, vegetables, fruits, fish, pets, water, and other sources of infection are not directly included in the analysis, under the assumption that the original sources of bacterial infection are animal reservoirs. Furthermore, the model is currently focused on salmonellae and may not be applicable to other pathogens that do not meet certain prerequisites. For example, although extensive subtyping has also been performed on 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. isolates, the homogeneous distribution of subtypes across reservoirs makes attribution difficult. Since the Danish model is focused on the major food-animal reservoirs, it cannot identify responsible foods at the point of consumption or at other points along the farm-to-fork continuum. British Experiences The United Kingdom uses an integrated systems approach to food safety that includes both epidemiologic and microbiologic methods, with responsibility for foodborne illness consolidated into a single government office. Annual reports on 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. , which combine surveillance data with data on food and animal monitoring (8), are produced. In addition, etiologic analyses of foodborne outbreaks, detailing illnesses by pathogen, food source, and additional risk factors, are performed. UK agencies also perform regular pathogen monitoring and subtyping of animals and retail food (8-10). The United Kingdom has developed a method for estimating the relative risks associated with specific foods, dividing the number of cases due to a specific food (as derived from their outbreak database) by the estimated total servings of that food consumed in a year. The weaknesses of this system include the assumption that all hospitalizations and deaths are routed through general practitioners and reliance on outbreak data, which may not be representative of sporadic disease (Med.) a disease which occurs in single and scattered cases. See the Note under Endemic, a. os> See also: Sporadic . However, the UK outbreak dataset is large, and the food vehicles implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. correlate with findings of local epidemiologic studies. Increasingly, data indicate that interventions guided by the system have been successful in reducing cases and risk for foodborne illness. US Outbreak Data Reports of outbreak investigations provide the most comprehensive US data for determining the foods responsible for illnesses. The Foodborne Disease Outbreak Surveillance System contains data on >20,000 US foodborne disease outbreaks reported to CDC since 1973; these reports link specific foods to cases of human illness (11). CDC, the Center for Science in the Public Interest (CSPI CSPI Center for Science in the Public Interest CSPI Corporate Service Price Index CSPI Cumulative Schedule Performance Index ), and the FSRC have estimated food attribution using these data (12-16). Responsibility for investigating foodborne disease outbreaks resides with local and state health departments, which then report these data to CDC. Reported outbreaks represent only a small proportion of those that occur, and the degree of underreporting may vary geographically and temporally. For example, revision of the reporting process and provision of increased resources to CDC and state health departments from the National Food Safety Initiative were associated with a doubling of the number of outbreaks reported annually from 1996 to 1998. Outbreak data have additional important limitations. Outbreaks that are large, associated with restaurants, have short incubation periods, or cause serious illness are more likely to be investigated and reported. Likewise, illnesses due to pathogens that are difficult to identify or rarely cause outbreaks are underrepresented un·der·rep·re·sent·ed adj. Insufficiently or inadequately represented: the underrepresented minority groups, ignored by the government. . For example, the foods most frequently identified as the source of Campylobacter outbreaks differ markedly from those identified as sources in community studies of sporadic cases (17). An approach used by CDC to estimate illness due to a particular food-pathogen combination is to count the number of outbreak-related illnesses due to a particular pathogen and to determine the proportion of these due to each food grouping. These proportions are then applied to estimates of incidence of that pathogen, as reported by CDC (1). This approach is also employed in the Foodborne Illness Risk Ranking Model (FIRRM), an analytic tool developed by FSRC to compare the public health impact of various pathogen-food combinations (14-16). As recent CDC outbreak data were not available when FIRRM was developed, FSRC relied on outbreak data compiled by CSPI. The CSPI database consists primarily (88%) of foodborne outbreak data compiled by CDC and now available on the Internet, but it also includes outbreaks not included in CDC data. CDC may not have received reports on these illnesses from state health departments or may have excluded reports from the database because they did not meet CDC criteria for foodborne outbreaks due to specific pathogens. Improving food attribution from outbreaks will require improving both the quality and quantity of data. In particular, increased efforts are needed to obtain stool specimens from ill persons early in outbreaks to increase the fraction of outbreaks for which a pathogen is identified to >40% and to trace back foods implicated in outbreaks to their sources. CDC has launched an effort to improve the categorization of food items and ingredients, so outbreaks can be grouped in useful ways for regulatory agencies, industry, and consumers. CDC is also creating new analysis capabilities for the foodborne outbreak surveillance system that will provide data summaries for a variety of purposes, including food attribution. FoodNet Sporadic Case-Control Studies FoodNet is an active surveillance program centered at CDC that tracks foodborne illnesses from 9 pathogens in 10 well-defined target populations (18-20). In FoodNet case-control studies, patients reporting through FoodNet are contacted for followup interviews and to complete questionnaires to estimate the proportion of illnesses associated with specific foods, food preparation, handling practices, and such behavior as pet ownership, farm visits, or international travel. FoodNet has performed case-control studies on a variety of pathogens, including Salmonella spp., 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:H7, Campylobacter, Cryptosporidium cryptosporidium (krĭp'tōspərĭd`ēəm), genus of protozoans having at least four species; they are waterborne parasites that cause the disease cryptosporidiosis. , and Listeria Listeria /Lis·te·ria/ (lis-ter´e-ah) a genus of gram-negative bacteria (family Corynebacterium); L. monocyto´genes causes listeriosis. Lis·te·ri·a n. monocytogenes (among others; 17, 21-24). FoodNet case-control studies are of particular value for assessing food attribution of sporadic illness because they are population based. Because the diseases under investigation are rare in all population subgroups, rate ratios in the data closely approximate risk ratios in the population. Along with case exposure percentages, these risk ratio estimates may be used to calculate the "population attributable fraction," the proportion of new cases occurring during a given period in a particular at-risk population that was attributable to the effect of [greater than or equal to] 1 exposures. FoodNet case-control studies have limitations, primarily due to recall bias, long exposure windows, and immunity (20). First, patients and controls are limited in what they remember and can report in an interview, and the interview format itself has limitations. Second, the periods during which exposures are ascertained for FoodNet case-control studies tend to be long (5-7 days), so the likelihood of detecting a difference in exposure between cases and controls is limited by high exposure frequencies among both cases and controls. Further studies are needed to assess the consequence of using shorter exposure windows. Lastly, if a relatively common infection conveys durable immunity, an important segment of the population may be immune and therefore not susceptible to infection, making the demonstration of an association between exposures and risk for infection more difficult. Microbial Subtyping and Microbial Source Tracking CDC's National Molecular Subtyping Network for Foodborne Disease Surveillance (PulseNet) links public health laboratories that use PFGE to routinely fingerprint suspected foodborne bacteria isolates (25). Results of PFGE subtyping of 5 bacteria (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. O157:H7, nontyphoidal Salmonella spp., 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. spp., L. monocytogenes, and Campylobacter spp.) are stored in the electronic PulseNet database; bacterial strains in the database can be compared quickly and provide an early warning system for emerging outbreaks when related strains appear. PulseNet cannot currently be used for food attribution because it does not include isolates from sporadic cases of human illness or from food or animal sources. MST refers to a specific application of microbial subtyping in which markers from an isolate are used to trace that isolate to an animal source, similar to what is done for salmonellae in Denmark. If different animal species carry unique, host-specific populations of microorganisms, a subtyped isolate drawn from an infected person could indicate that the isolate originated in 1 species as opposed to another. A large number of MST methods are being researched, most of which were originally developed to trace fecal bacteria in natural waters. Most approaches use genetic or phenotyping fingerprinting methods, although chemical markers, biomarkers, viruses, and bacteriophages are also used as indicators of animal source (26,27). Although MST techniques have potential, no single approach seems ideal for all pathogens and situations. US agencies have begun to research MST specifically for food attribution purposes; CVM, in particular, has investigated methods for Salmonella and Campylobacter spp. (28). Although results to date are promising, they are only initial steps toward using MST methods to attribute illnesses to food animals. Similarly, data collected on the antimicrobial antimicrobial /an·ti·mi·cro·bi·al/ (-mi-kro´be-al) 1. killing microorganisms or suppressing their multiplication or growth. 2. an agent with such effects. resistance of bacteria by researchers at CVM, CDC, the Agricultural Research Service (an agency of the USDA), and elsewhere may ultimately prove useful for food attribution purposes. Risk Assessments Risk assessments include food contamination data, food storage and consumption patterns, risk behavior, and dose-response functions to predict risks for illness from specific pathogens found in specific foods. If exposure estimates and dose-response functions are sufficiently accurate (a key consideration), risk assessments may produce excellent estimates of the true impact of illness. Because risk assessments are so resource-intensive, they have been undertaken for only a limited number of pathogen-food combinations. The most comprehensive risk assessments for a single pathogen are those performed for L. monocytogenes by CFSAN and FSIS (29,30). This set of 23 individual risk assessments focused on ready-to-eat foods, including deli meats, dairy, produce, and seafood. Risk assessments have also been conducted on E. coli O157:H7 in ground beef (31), on Salmonella enterica Salmonella enterica is a rod shaped, flagellated, Gram-negative bacterium, and a member of the genus Salmonella.[1] Serovars S. enterica has an extraordinarily large number of serovars serovar Enteritidis in shell eggs and egg products (32), and on Vibrio parahaemolyticus Vibrio par·a·hae·mo·lyt·i·cus n. A marine bacterium that may contaminate shellfish and cause human gastroenteritis. in molluscan mol·lus·can also mol·lus·kan adj. Of or relating to the mollusks. n. A mollusk. shellfish (33). For risk assessments to be used for food attribution, however, they need to be performed on most food items associated with a particular pathogen. Considering the 3-year duration of the L. monocytogenes risk assessments, performing comprehensive risk assessments on a sufficiently large In mathematics, the phrase sufficiently large is used in contexts such as:
The other major limitation of using risk assessments for food attribution is that they are inherently predictive. Unlike surveillance data, they do not measure observable public health effects, but rather estimate the impact on the basis of assumptions that are difficult to validate in a dynamic system, in particular dose-response functions, food storage and consumption patterns, and consumer behavior. Furthermore, risk assessments are ill suited "Ill Suited" is the first episode of Kim Possible's fourth season, which premiered on Disney Channel on February 10, 2007.[1] After misunderstanding a conversation between Kim Possible and Monique, Ron Stoppable fears that he isn't good enough to be her for temporal analyses, since they are not routinely updated as new data become available. Risk assessments are most useful for food attribution purposes when compared with other estimates, such as those based on outbreak data or case-control studies. US Food Monitoring Various US food safety agencies test for pathogen prevalence in foods through routine monitoring and case studies. FSIS monitoring, focused on the slaughter process, includes regular testing of raw meat and poultry for salmonellae (34), ground beef for E. coli O157:H7 (35), and ready-to-eat deli products for multiple pathogens (http://www.fsis.usda.gov/OPHS/rtetest/). FSIS and the Agricultural Research Service have examined pathogen prevalence in commercial food products, such as L. monocytogenes in frankfurters (36). The United States does not have a comprehensive program for monitoring live food animals. Food and animal monitoring data, when not associated with surveillance data, are not applicable for food attribution purposes. Expert Elicitation In science, engineering, and research, expert elicitation is the synthesis of opinions of experts of a subject where there is uncertainty due to insufficient data, when such data is unattainable because of physical constraints or lack of resources. When scientific or epidemiologic data are lacking, sparse, or highly uncertain, expert judgment may be used to fill gaps or combine conflicting estimates into a meaningful solution. Expert judgments derived through formal methods are increasingly used and recommended for assessing risk and the economic impact of regulations (37-39). FSRC researchers administered an expert elicitation of experienced food safety researchers, public health scientists, and food safety authorities for use in the Foodborne Illness Risk Ranking Model (15). Produced with a standardized, vetted method, the survey asked respondents to estimate the percentage of 11 pathogens caused by each listed food category and included measures of respondent uncertainty and possible biases. Although data need to be analyzed further, initial results are promising and corroborate To support or enhance the believability of a fact or assertion by the presentation of additional information that confirms the truthfulness of the item. The testimony of a witness is corroborated if subsequent evidence, such as a coroner's report or the testimony of other food attribution percentages derived from other means. Expert elicitations are limited because they are based on perception, not on observable data. Results may be circular if experts rely on the same sources, or deceptive if experts are similarly misinformed or biased. Expert judgments are thus not an ideal source of food attribution data but may have utility if data are sparse or inconsistent and uncertainty is substantial. Conclusions A recent National Academies of Science report, Scientific Criteria to Ensure Safe Food, argues for "the development of a comprehensive national plan to harmonize the foodborne disease surveillance that is conducted by public health agencies with the monitoring of pathogens across the food production, processing, and distribution continuum that is conducted by food safety regulatory agencies" (2). The motivation driving this suggestion is the same as that which motivated FSRC to convene the Food Attribution Data Workshop; to make informed science- and risk-based decisions about food safety interventions, we need to be able to associate foodborne illnesses to specific food vehicles. The goal of the workshop was to review the approaches currently used for food attribution, in the United States and abroad, and to identify future options for the collection of food attribution data in the United States. Although all workshop attendees or institutions did not reach consensus about the ideal data for food attribution, there was nearly universal agreement that none of the current data sources are sufficient on their own because of methodologic limitations or gaps in available data (see Table). Furthermore, in the United States, data are spread over a wide range of agencies and researchers, resulting in myriad studies covering different aspects of the food attribution problem. These issues make it difficult to accurately and dependably attribute illnesses to the foods responsible as pathogen vehicles--and, in turn, to target appropriate intervention strategies. Several characteristics should be considered in evaluating and comparing current and future food attribution methods; their relative importance depends on the purpose for which the attribution data are sought. These include scientific accuracy and uncertainty, quality and breadth of data, computational consistency, practical feasibility, cost of implementation, flexibility and scalability, utility for targeting interventions, and congruency con·gru·en·cy n. pl. con·gru·en·cies Congruence. with other relevant data sources. Among the critical unresolved issues is how to balance such factors as scientific accuracy and practical feasibility to produce attribution data that will be both useful and affordable. With so many institutions responsible for various aspects of the food safety system, collaboration is paramount, as is the explicit delineation of responsibilities and powers. Access to these data is a critical issue. Building a system in which data and conclusions are shared in a timely manner among agencies and with industry and academia, and privacy issues with persons and industry participants have to be addressed. Creation of an open searchable database Refers to databases on the Web that are searchable by typing in a query. The term is quite redundant because all databases are searchable. In fact, that is one of their major features. of outbreaks would greatly expand the opportunities for research and collaboration. As described here, a variety of approaches have been used to better define the source of foods responsible for human infections. However, none of these approaches is likely to be sufficient on its own. The implicit conclusion, therefore, is that the scientific and accurate attribution of foodborne illnesses to specific foods means developing a comprehensive program that combines many of the discussed methods and data. Such a system can be achieved with increased resources and cooperation among food safety institutions. The Food Attribution Data Workshop was sponsored by the Food Safety Research Consortium, a multidisciplinary collaboration to improve public health; members include the University of Maryland, Baltimore University of Maryland, Baltimore, (also known as UMB) was founded in 1807. It is one of the oldest universities in the United States and comprises some of the oldest professional schools in the nation and world. ; University of Georgia; Iowa State University; University of Massachusetts The system includes UMass Amherst, UMass Boston, UMass Dartmouth (affiliated with Cape Cod Community College), UMass Lowell, and the UMass Medical School. It also has an online school called UMassOnline. ; University of California, Davis The University of California, Davis, commonly known as UC Davis, is one of the ten campuses of the University of California, and was established as the University Farm in 1905. ; Michigan State University Michigan State University, at East Lansing; land-grant and state supported; coeducational; chartered 1855. It opened in 1857 as Michigan Agricultural College, the first state agricultural college. ; and Resources for the Future. The workshop grew out of an FSRC project funded by the Robert Wood Johnson Foundation Robert Wood Johnson Foundation, charitable organization devoted exclusively to health care issues. It was established in 1936 by Robert Wood Johnson (1893–1968), board chairman of the Johnson & Johnson medical products company. and received generous support from the Joint Institute for Food Safety and Applied Nutrition, the Center for Food Safety and Applied Nutrition and Center for Veterinary Medicine within the FDA, and the Office of Risk Assessment and Cost-Benefit Analysis cost-benefit analysis In governmental planning and budgeting, the attempt to measure the social benefits of a proposed project in monetary terms and compare them with its costs. and the Economic Research Service within USDA.
Table. Current approaches to food attribution
Approach Primary advantages
Denmark Microbial subtyping provides direct link between
Salmonella public health endpoint and animal
Accounts High reporting of illnesses (social health care)
National, temporal coverage for both illnesses and
animal/product monitoring
UK outbreak Large dataset: national, temporal coverage
data Results correlate with local epidemiologic findings
US outbreak National and temporal coverage
data Large common dataset
Straightforward, uses existing data
Outbreaks and outbreak cases can be aggregated
into food categories
Case-control Population-based studies
studies Captures risk factors not included in most surveil-
lance data (travel, food preparation questions)
Can implicate risks missed by laboratory testing
Microbial Subtyping of illnesses and foods can provide direct
subtyping link between public health endpoint and source of
infection
Can be used to identify specific foods (outbreak
investigations) or animal reservoirs (source
tracking by species)
Many different techniques, growing fast
Risk Can estimate cases not captured by surveillance
assessments methods (not limited by underreporting or biases in
epidemiologic methods)
Uses consumption and contamination data ignored
by surveillance-based approaches
Food monitoring Captures upstream contamination (avoids
data environmental and cross-contamination after
purchase)
Expert Useful when data are sparse or conflicting
elicitation/ Formal methods increase utility
judgment
Approach Primary limitations Refs
Denmark Difficult to expand to other pathogens; 5, 6
Salmonella requires distinctive subtypes across
Accounts reservoirs
Focus on animals ignores nonanimal
sources
Focus on reservoirs, not food products
at point of consumption
UK outbreak May not correlate with sporadic case 8
data data
Not all pathogens well represented
Dependence on general practitioners
US outbreak May not correlate with sporadic case 11, 12
data data
Geographic and temporal inconsistencies
(local reporting) and biases towards
certain foods
Not all pathogens well represented
Case-control Survey format has recall bias and other 17, 20-24
studies limits
Long exposure windows (problems with
common exposures)
Durable immunity in population can
impede associating exposures with ill-
nesses
No laboratory verification
Microbial For animal sourcing, subtypes must be 25-28, 5, 6
subtyping distinctive across species (see Danish
Salmonella Accounts)
Utility may be limited to certain
pathogens
Resource intensive, requires human sur-
veillance, extensive monitoring of food
and animals, plus laboratory testing,
data storage, analysis
Risk Predictive; cannot be verified 29-33
assessments Large uncertainties in dose-response
models and exposure estimates
Resource- and time-intensive (each
pathogen-food combination requires its
own exhaustive study)
Food monitoring Not usable for food attribution unless 34-36
data made compatible (through subtyping or
other means) with public health data
Expert Respondents can be similarly biased 15, 37-39
elicitation/ Requires some level of consensus for
judgment reasonable error bounds
Based on perception, not data
References (1.) Mead PS, Slutsker L, Dietz V, McCaig LF, Bresee JS, Shapiro C, et al. Food-related illness and death in the United States. Emerg Infect Dis. 1999;5:607-25. (2.) Institute of Medicine. Scientific criteria to ensure safe food. Washington: National Academy Press; 2003. (3.) US General Accounting Office. Food safety and security--fundamental changes needed to ensure safe food. GAO-02-47T. Washington: The Office; 2001. (4.) Ministry of Food, Agriculture, and Fisheries. Annual report on zoonoses in Denmark, 2002. Copenhagen: The Ministry; 2003. (5.) Wegener HC, Hald T, Wong DLF DLF Digital Library Federation DLF Digital Library Federation (Washington, DC) DLF Development Loan Fund DLF Distribution Loss Factor DLF Det Liberale Folkeparti (Norwegian political party) , Madsen M, Korsgaard H, Bager F, et al. Salmonella control programs in Denmark. Emerg Infect Dis. 2003;9:774-80. (6.) Hald T, Vose D, Wegener HC, Koupeev T. A Bayesian approach to quantify the contribution of animal-food sources to human salmonellosis. Risk Anal. 2004;24:251-65. (7.) Molbak K, Neimann J. Risk factors for sporadic infection with Salmonella Enteritidis Salmonella en·ter·it·i·dis n. Gärtner's bacillus. , Denmark, 1997-1999. Am J Epidemiol. 2002;156:654-61. (8.) Department for Environment, Food and Rural Affairs The Department for Environment, Food and Rural Affairs (Defra) is the United Kingdom government department responsible for environmental protection, food production and standards, agriculture, fisheries and rural communities in England. . Zoonoses report--United Kingdom, 2001. London: The Department; 2003. (9.) Little CL, Gillespie IA, Mitchell RT. Microbiological examination of ready-to-eat burgers sampled anonymously at the point of sale in the United Kingdom. Commun Dis Public Health. 2001;4:293-9. (10.) Gillespie IA, Little CL, Mitchell RT. Microbiological examination of cold ready-to-eat sliced meats from catering establishments in the United Kingdom. J Appl Microbiol. 2000;88:467-74. (11.) Olsen SJ, MacKinnon LC, Goulding JS, Bean NH, Slutsker L. Surveillance for foodborne disease outbreaks--United States, 1993-1997. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep. 2000;49(SS01): 1-51. (12.) Bean NH, Goulding JS, Lao C, Angulo FJ. Surveillance for foodborne-disease outbreaks--United States, 1988-1992. MMWR. Morb Mortal Wkly Rep. 1996;45(SS-5):1-66. (13.) DeWaal CS, Barlow K. Outbreak alert! Closing the gaps in our federal food-safety net. Washington: Center for Science in the Public Interest; 2002. (14.) Batz MB, Hoffmann SA, Krupnick AJ, Morris JG, Sherman DM, Taylor MR, et al. Identifying the most significant microbiological foodborne risks to public health: a new risk-ranking model. Discussion paper. Washington: Resources for the Future; 2005. In press. (15.) Food Safety Research Consortium. Food attribution data and methodologies in the foodborne illness risk ranking model. Washington; The Consortium; 2003. (16.) Food Safety Research Consortium. Ranking the public health impact of foodborne hazards: a conference on the FSRC risk ranking model. Washington: The Consortium; 2004. Available from http://www.rff.org/fsrc/riskrankingconference.htm (17.) Friedman CR, Hoekstra RM, Samuel M, Marcus R, Bender J, Shiferaw B, et al. Emerging Infections Program FoodNet Working Group. Risk factors for sporadic Campylobacter infection in the United States: a case-control study. Clin Infect Dis. 2004;38(Suppl 3):S285-96. (18.) Angulo F, Voetsch A, Vugia D, Hadler J, Farley M, Hedberg C, et al.; FoodNet Working Group. Determining the burden of human illness from foodborne diseases: CDC's Emerging Infectious Disease An emerging infectious disease (EID) is an infectious disease whose incidence has increased in the past 20 years and threatens to increase in the near future. EIDs include diseases caused by a newly identified microorganism or newly identified strain of a known microorganism (e.g. Program Foodborne Disease Active Surveillance Network (FoodNet). Vet Clin North Am Food Anim Pract. 1998; 14:165-72. (19.) Centers for Disease Control and Prevention. Preliminary FoodNet data on the incidence of foodbome illnesses selected sites, United States, 2002. MMWR Morb Mortal Wkly Rep. 2003;52:340-3. (20.) Hardnett FP, Hoekstra RM, Kennedy M, Charles L, Angulo FJ. Epidemiologic issues in study design and data analysis related to FoodNet activities. Clin Infect Dis. 2004;38: S121-6. (21.) Moore MR, Varma JK, Medus C, Crume T, Marcus R, Zansky SM, et al. Risk factors for sporadic infection caused by Salmonella Enteritidis in the United States, 2002 2003. 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. . Feb 29-Mar 3 2004, Atlanta. [accessed 17 May 2005]. Available from http://www.cdc.gov/foodnet/publications/2004/moore_2004.pdf (22.) Kimura A, Reddy V, Marcus R, Cieslak P, Mohle-Boetani J, Kassenborg HD, et al. Chicken consumption is a newly identified risk factor for sporadic Salmonella enterica serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. See serovar. v. Enteritidis infections in the United States: a case-control study in FoodNet sites. Clin Infect Dis. 2004;38:S244-52. (23.) Kassenborg H, Hedberg C, Hoekstra M, Evans M, Chin AE, Marcus R, et al. Farm visits and undercooked hamburgers as major risk factors for sporadic Escherichia coli O157:H7 infections: data from a case-control study in 5 FoodNet sites. Clin Infect Dis. 2004;38:S271-8. (24.) Varma JK, Samuel MC, Marcus R, Hoekstra M, Medus C, Segler SD, et al. Dietary and medical risk factors for sporadic Listeria monocytogenes infection: a FoodNet case-control study: United States, 2000-2003. international Conference on Emerging Infectious Diseases. Feb 29-Mar 3, 2004, Atlanta. [accessed 17 May 2005]. Available from http://www.cdc.gov/foodnet/publications/2004/ varma_2004.pdf (25.) Swaminathan B, Barrett TJ, Hunter SB, Tauxe RV. PulseNet: the molecular subtyping network for foodborne bacterial disease A bacterial disease is an abnormal condition of an organism (disease) caused by bacteria, a type of unicellular microorganisms. Not all bacteria cause disease, and not all diseases are caused by bacteria, or even microorganisms. surveillance, United States. Emerg Infect Dis. 2001;7:382-9. (26.) Bernstein BB, Griffith JF, Weisberg SB. Microbial Source Tracking Workshop: U.S. EPA Workshop on Microbial Source Tracking. 2002 Feb 5. Irvine, CA. [cited 17 May 2005]. Available from http://www.sccwrp.org/tools/ workshops/source_tracking_workshop.html (27.) Simpson JM, Santo Domingo Santo Domingo, pueblo, United States Santo Domingo (sän'tə dəmĭng`gō), pueblo (1990 pop. 2,866), Sandoval co., N central N.Mex., on the Rio Grande; founded c.1700 after earlier pueblos were destroyed by floods. JW, Reasoner DJ. Microbial source tracking: state of the science. Environ Sci Technol. 2002;36:5279-88. (28.) Singh R, Foley SL, White DG, Zhao S, Simjee S, McDermott PF, Walker RD. 2003. Microbial source tracking (MST) of foodborne Salmonella & Campylobacter. Board F-15, FDA science forum and poster session A poster session is the juried presentation of research information by representatives of several research teams at a congress or conference with an academic or professional focus. These are particularly prominent at scientific conferences such as medical congresses. . 2003. Apr 24-25. Washington. [cited 2005 May 17]. Available from http://www.cfsan.fda.gov/~frf/forum03/F-15.htm (29.) Center for Food Safety and Applied Nutrition, Food Safety and Inspection Service The United States Department of Agriculture's Food Safety and Inspection Service (FSIS) is charged with ensuring that all meat, poultry, and processed egg products in the United States are safe to consume and accurately labeled. , Centers for Disease Control and Prevention. Quantitative assessment of relative risk to public health from foodborne Listeria monocytogenes among selected categories of ready-to-eat foods. Washington: US Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS and US Department of Agriculture; 2003. (30.) Gallagher DL, Ebel ED, Kause JR. FSIS risk assessment for Listeria monocytogenes in dell meats, draft. Washington: US Department of Agriculture, Food Safety and Inspection Service; 2003. (31.) Food Safety and Inspection Service. Draft risk assessment of the public health impact of Escherichia coli O157:H7 in ground beef. US Department of Agriculture; 2001. (32.) Food Safety and Inspection Service. Salmonella Enteritidis risk assessment: shell eggs and egg products: final report. Washington: U S Department of Agriculture; 1998. (33.) Center for Food Safety and Applied Nutrition. Draft risk assessment on the public health impact of Vibrio parahaemolyticus in raw molluscan shellfish. Washington: Food and Drug Administration; 2000. (34.) Food Safety and Inspection Service. Progress report on Salmonella testing of raw meat and poultry products, 1998-2002. Washington: US Department of Agriculture; 2003. (35.) Food Safety and Inspection Service. Microbiological results of raw ground beef products analyzed for Escherichia coli O157:H7. Washington: US Department of Agriculture; 2004. Available from http://www.fsis.usda.gov/OPHS/ecoltest/ (36.) Wallace FM, Call JE, Porto AC, Cocoma GJ, Luchansky JB, ERRC ERRC European Roma Rights Centre ERRC Eastern Regional Research Center ERRC Easy Riders Recumbent Club (magazine) ERRC Engine Regional Repair Center (Air Force) Special Projects Team. Recovery rate of Listeria monocytogenes from commercially prepared frankfurters during extended refrigerated re·frig·er·ate tr.v. re·frig·er·at·ed, re·frig·er·at·ing, re·frig·er·ates 1. To cool or chill (a substance). 2. To preserve (food) by chilling. storage. J Food Prot. 2003;66:584-91. (37.) National Research Council. Estimating the public health benefits of proposed air pollution regulations. Washington: National Academies of Science; 2002. (38.) Office of Management and Budget The Office of Management and Budget (OMB), formerly the Bureau of the Budget, is an agency of the federal government that evaluates, formulates, and coordinates management procedures and program objectives within and among departments and agencies of the Executive Branch. . Circular A-4. Washington. 2003 Sep 17. (39.) U.S. Environmental Protection Agency. An examination of EPA risk assessment principles and practices. Washington; The Agency; 2004. Michael B. Batz, * Michael P. Doyle, ([dagger]) J. Glenn Original drummer for My Morning Jacket. Currently embarked on a solo career in the vein of Hasil Adkins. From the band's website: "Since November 2000 J. Glenn is no longer with the band, from now on the drums will be hit by Chris 'KC' Guetig. Morris, Jr., ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) John Painter John Painter (Tennessee, September 20, 1888 - March 1, 2001) was posthumously recognized as the world's oldest man and oldest American veteran, as a result of the U.S.'s SSA supercentenarian study. , ([section]) Ruby Singh, ([paragraph]) Robert V. Tauxe, ([section]) Michael R. Taylor, * and Danilo M.A. Lo Fo Wong, (#) for the Food Attribution Working Group (1) * Resources for the Future, Washington, DC, USA; ([dagger]) University of Georgia, Griffin, Georgia Griffin is a city in Spalding County, Georgia, United States. The population was 23,451 at the 2000 census. The city is the county seat of Spalding CountyGR6. , USA; ([double dagger]) University of Maryland School of Medicine, Baltimore, Maryland "Baltimore" redirects here. For the surrounding county, see Baltimore County, Maryland. For other uses, see Baltimore (disambiguation). Baltimore is an independent city located in the state of Maryland in the United States. , USA; ([section]) Centers for Disease Control and Prevention, Atlanta, Georgia, USA; ([paragraph]) Food and Drug Administration, Laurel, Maryland Laurel is a Maryland, U.S. city located midway between Washington, D.C. and Baltimore. Incorporated in 1870, the city maintains a historic district including its Main Street. The official population estimate for Laurel city was 21,945 as of 2006. , USA; and (#) Danish Institute for Food and Veterinary Research, Copenhagen, Denmark (1) In addition to the authors, the presenters and attendees who constitute the Food Attribution Working Group are Fred Angulo (CDC), Robert Buchanan Robert Buchanan (1813 – March 4, 1866) was an Owenite poet, playwright, lecturer and journalist, and the father of Robert Williams Buchanan. (FDA), H. Gregg Claycamp (FDA), Caroline Smith DeWaal, Center for Science in the Public Interest (CSPI), Jorge Santo Domingo (EPA), Katherine Field (Oregon State University Oregon State University, at Corvallis; land-grant and state supported; coeducational; chartered 1858 as Corvallis College, opened 1865. In 1868 it was designated Oregon's land-grant agricultural college and was taken over completely by the state in 1885. ), David Goldman (USDA), Matthew Moore
Matthew Moore (January 8, 1888 – January 21, 1960) was born in Fordstown Crossroads, County Meath, Ireland. (CDC), Sarah O'Brien (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, England), Efrain Ribot (CDC), Stephen Sundlof (FDA), and Catherine Woteki (Iowa State University). Mr. Batz is a research associate with Resources for the Future, with technical responsibility for the FSRC's foodborne illness risk ranking model. He served as the primary author for this workshop summary. The opinions expressed by authors contributing to this journal do not necessarily reflect the opinions of the Centers for Disease Control and Prevention or the institutions with which the authors are affiliated. Address for correspondence: Michael B. Batz, Resources for the Future, 1616 P St NW, Washington, DC 20036-1434, USA; fax: 202-939-3460; email: mbatz@rff.org |
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