Norovirus and foodborne disease, United States, 1991-2000.Efforts to prevent foodborne illness A foodborne illness (also foodborne disease) is any illness resulting from the consumption of food. Although foodborne illness is commonly called food poisoning, this is often a misnomer. target bacterial pathogens, yet noroviruses (NOV judgment notwithstanding the verdict (N.O.V.) n. reversal of a jury's verdict by the trial judge when the judge believes there was no factual basis for the verdict or it was contrary to law. The judge will then enter a different verdict as "a matter of law. ) are suspected to be the most common cause of gastroenteritis gastroenteritis: see enteritis. gastroenteritis Acute infectious syndrome of the stomach lining and intestines. Symptoms include diarrhea, vomiting, and abdominal cramps. . New molecular assays allow for better estimation of the role of NoV in foodborne illness. We analyzed 8,271 foodborne outbreaks reported to 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. from 1991 to 2000 and additional data from 6 states. The proportion of NoV-confirmed outbreaks increased from 1% in 1991 to 12% in 2000. However, from 1998 to 2000, 76% of NoV outbreaks were reported by only 11 states. In 2000, an estimated 50% of foodborne outbreaks in 6 states were attributable to NoV. NoV outbreaks were larger than bacterial outbreaks (median persons affected: 25 versus 15), and 10% of affected persons sought medical care; 1% were hospitalized. More widespread use of molecular assays will permit better estimates of the role of NoV illness and help direct efforts to control foodborne illness. ********** Foodborne infections are estimated to cause 76 million illnesses, 300,000 hospitalizations, and 5,000 deaths annually 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. (1). Several high-profile outbreaks in the last 15 years have focused attention on the role of bacteria in severe foodborne illness (24) and led to serious efforts to prevent bacterial contamination of food during all levels of processing and handling--the "farm-to-fork" model. However, in more than two thirds of outbreaks of foodborne illness, no 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. is identified (5). Noroviruses (NOV), previously known as "Norwalk-like viruses Norwalk-like virus Virology Any of a group of viruses with biologic, clinical, and immunologic findings similar to those of the Norwalk agent(s). see Gastroenteritis, Hawaii agent, Norwalk agent(s), Otofuke virus, Snow Mountain virus ," have long been suspected to be a frequent cause of foodborne outbreaks (6-11). Until recently, diagnosis of NoV infection relied on methods that were insensitive (electron microscopy electron microscopy Technique that allows examination of samples too small to be seen with a light microscope. Electron beams have much smaller wavelengths than visible light and hence higher resolving power. [12]), difficult to set up (serologic testing serologic test Lab medicine A test that measures components–eg, antibodies, complement, and reactions–eg, complement fixation, agglutination, precipitation, etc, that reflect immune status, especially antibody titers. Cf Seroconversion. with human reagents [13]), and available only in research settings. In 1982, epidemiologic and clinical criteria were formulated to help attribute outbreaks to NoV in the absence of a simple diagnostic test (14). Despite these criteria, the absence of any routine diagnostic assay Noun 1. diagnostic assay - an assay conducted for diagnostic purposes diagnostic test assay - a quantitative or qualitative test of a substance (especially an ore or a drug) to determine its components; frequently used to test for the presence or for NoV has discouraged investigations into outbreaks of suspected viral etiology etiology /eti·ol·o·gy/ (e?te-ol´ah-je) 1. the science dealing with causes of disease. 2. the cause of a disease. and thus limited assessment of the true impact of gastroenteritis associated with these pathogens. In 2000, for example, a survey of public health professionals in Tennessee found that only 9% cited viruses as a major cause of foodborne illness (15). Not unexpectedly, therefore, of the 2,751 foodborne outbreaks reported to the Centers for Disease Control and Prevention (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ) from 1993 to 1997, only 9 (0.3%) were confirmed as due to NoV (5). (1) In the early 1990s, sensitive and simpler assays were developed to detect NoV by identifying viral RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic after reverse transcription-polymerase chain reaction (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) (16). In 1993, RT-PCR was adopted at CDC for the routine detection of NoV (17), particularly in outbreaks in which specimens test negative for common bacteria. A number of state public health laboratories subsequently adopted similar assays or began sending specimens to CDC for NoV testing. When RT-PCR was used, a NoV was identified as the etiologic e·ti·ol·o·gy also ae·ti·ol·o·gy n. pl. e·ti·ol·o·gies 1. a. The study of causes or origins. b. The branch of medicine that deals with the causes or origins of disease. 2. a. agent in 93% of outbreaks of nonbacterial gastroenteritis submitted for testing to CDC from 1997 to 2000 (18). However, this selection was of specimens from outbreaks of illness characteristic of viral infection viral infection, n an infection by a pathogenic virus. A virus acts on the cell nucleus, taking over the genetic material within the nucleus and replicating itself. , and they usually have already tested negative for bacteria. The selection introduces bias since it does not permit an assessment of the true relative frequency of foodborne outbreaks of NoV disease. Therefore, we analyzed data from all foodborne outbreaks (irrespective of irrespective of prep. Without consideration of; regardless of. irrespective of preposition despite cause) reported to CDC by state health departments from 1991 through 2000 to assess how recent application of RT-PCR techniques might have improved understanding of the relative impact and role of NoV in these outbreaks in the United States. Methods We used 3 related datasets: 1) all foodborne outbreaks reported to CDC from 1991 through 2000 (N = 8,271), 2) a subset of these outbreaks reported from 1998 though 2000 when surveillance was enhanced and states began to use NoV diagnostics (N = 4,072), and 3) all foodborne outbreaks reported in 2000 in 6 selected states from which supplementary data on diagnostic testing Diagnostic testing Testing performed to determine if someone is affected with a particular disease. Mentioned in: Von Willebrand Disease were gathered (N = 600). Foodborne Outbreak Reports, 1991-2000 Outbreaks of foodborne disease (excluding those on cruise ships This is a list of cruise ships, both those in service and those that have since ceased to operate. Both cruise ships and cruiseferries are included in this list. (Ocean liners are not included on this list, see List of ocean liners. ) are voluntarily reported by state health departments to CDC for inclusion in the National Foodborne Outbreak Reporting System. Whether an outbreak is classified as foodborne or not is at the discretion of the state epidemiologist. Minimum data required for registering an outbreak report include the number of persons ill and the date of onset of the first case. The determination of outbreak cause is based on CDC's pathogen-specific guidelines (19). In 1998, the surveillance system was enhanced by annual data verification with states and solicitation solicitation In criminal law, the act of asking, inducing, or directing someone to commit a crime. The person soliciting another becomes an accomplice to the crime. The term also refers to the act of obtaining bribes, as well as to the crime of a prostitute who offers sexual of any unreported outbreaks. We reviewed records of 8,271 foodbome outbreaks reported to CDC from 1991 through 2000. We also noted the year in which state laboratories set up the RT-PCR assay for NoV, and by cross-referencing with CDC laboratory logs, we determined whether an outbreak had been confirmed as attributable to NoV at a laboratory in a state or at CDC. Foodborne Outbreak Reports, 1998-2000 This subset of foodborne outbreaks was selected for further analysis because, in addition to enhanced surveillance in this period, state public health laboratories had begun to test routinely for NoV, and these reports therefore included most outbreaks of confirmed NoV disease. Available variables included the laboratory-confirmed cause; clinical data (symptoms, median incubation period incubation period n. 1. See latent period. 2. See incubative stage. Incubation period , median duration of illness); food vehicle; whether a food-handler was 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. ; and the number of persons exposed, ill, requiring medical attention, or hospitalized. From January 1998 through December 2000, a total of 4,072 outbreaks were reported to CDC. We excluded 30 outbreaks involving multiple states and 10 occurring in the U.S. territories and further analyzed the remaining 4,032 outbreak reports. To assess the differences between states in outbreak reporting and laboratory testing, each state was classified into 1 of 5 groups on the basis of the number of NoV-confirmed outbreaks that a state reported in 1998 to 2000 ([greater than or equal to] 20, 10-19, 5 9, 14, or none reported). The proportion of reported outbreaks with a known cause and the proportion confirmed to be due to NoV were calculated for each group. The number of reported outbreaks per 100,000 population per state for these 3 years was also calculated by using U.S. Census data for 2000. To characterize the severity of illness and the settings associated with NoV outbreaks, we selected the 305 NoV-confinned outbreaks and analyzed those with complete information on medical care (n = 112) and setting (n = 278). We calculated the proportion of persons seeking care and the proportion hospitalized by using the number of case-patients interviewed as a denominator denominator the bottom line of a fraction; the base population on which population rates such as birth and death rates are calculated. denominator . To compare the epidemiologic and clinical features of outbreaks attributed to bacteria and viruses, we selected, from the 4,032 outbreaks of gastroenteritis, a subset of 1,216 reports with complete information on the number ill, duration of illness, incubation period, and the proportion of interviewed patients who reported vomiting vomiting, ejection of food and other matter from the stomach through the mouth, often preceded by nausea. The process is initiated by stimulation of the vomiting center of the brain by nerve impulses from the gastrointestinal tract or other part of the body. or fever. Of these outbreaks, 136 were attributed to NoV, 173 to bacteria, and 907 to an undetermined cause. We further compared outbreak reports with information on implicated food types (n = 608) and whether or not an ill foodhandler was thought involved by the outbreak investigators (n = 760). Data on Specimen Screening from 6 States, 2000 Data on the pathogens screened in a single outbreak are not reported to CDC; therefore, to estimate the proportion of outbreaks that would be NoV-confirmed if collected specimens were tested routinely not only for bacteria but also for NoV, we gathered additional data on the testing of stools gathered from foodborne outbreaks in 2000 from 6 states (Georgia, Minnesota, Ohio, Florida, Maryland, New York Maryland is a town in Otsego County, New York, United States. The population was 1,920 at the 2000 census. The Town of Maryland is on the county's south border, and was named for the U.S. state of the same name. ). These states were selected because they collected stools from a large number of outbreaks and had laboratory capability to test specimens for NoV. We applied the proportion of all outbreaks tested for NoV that were NoV-positive in each state ([greater than or equal to] 1 positive specimens) to the number of outbreaks of undetermined etiology for which specimens had been gathered, had tested negative for bacteria, but had not been tested for NoV. We then added this figure to the total actual number of NoV outbreaks to estimate the proportion of all outbreaks with specimens in that state that would be attributable to NoV had specimens from all outbreaks been tested fully. Results Foodborne Outbreak Reports, 1991-2000 The number of foodborne outbreaks reported to CDC per year from 1991 to 2000 ranged from 411 outbreaks in 1992 to 1,414 in 2000, and increased markedly in 1998, when the reporting system was changed (Figure 1A). Of 8,271 outbreaks, 5,637 (68%) were of undetermined etiology. The number of NoV-confirmed outbreaks increased markedly from 11 outbreaks in 1996 to 164 (12% of all reported outbreaks) in 2000 (Figure 1B). This rise was initially due to laboratory confirmation of NoV by CDC, but by 2000, 100 (61%) of 164 NoV outbreaks were confirmed in state laboratories. Underreporting, however, remained an obvious problem since only 17 (34%) of 50 state public health laboratories tested for NoV, while the remaining 33 states (66%) either sent specimens to CDC for diagnosis (n = 12), or did not report any NoV outbreaks (n = 21). [FIGURE 1 OMITTED] Foodborne Outbreak Reports, 1998-2000 Of 4,032 outbreaks reported in this period of enhanced surveillance, only 1,146 (28%) were of determined cause and 2,886 (72%) were of undetermined etiology (Table 1). NoV-confirmed outbreaks comprised 305 (8%) of all 4,032 outbreaks or 27% of the 1,146 outbreaks with a determined cause. These 305 NoV outbreaks accounted for 13,527 (18%) of all 74,481 sick persons in all 4,032 outbreaks or 39% of 34,539 sick persons in 1,146 outbreaks of known cause. NoV Reporting A great disparity was observed in the reporting of NoV outbreaks. Of the 50 U.S. states A U.S. state is any one of the fifty subnational entities of the United States, although four states use the official title "commonwealth". The separate state governments and the federal government share sovereignty, in that an American is a citizen both of the federal entity and and the District of Columbia District of Columbia, federal district (2000 pop. 572,059, a 5.7% decrease in population since the 1990 census), 69 sq mi (179 sq km), on the east bank of the Potomac River, coextensive with the city of Washington, D.C. (the capital of the United States). , 15 (29%) reported no NoV outbreaks (Table 1 and Figure 2). Of the total of 305 NoV outbreaks, 232 (76%) were reported by 11 states, which each investigated [greater than or equal to] 10 NoV outbreaks and accounted for 613 (53%) of all 1,146 outbreaks of determined cause. We hypothesized that the proportion of outbreaks of determined cause reported in each state would be lowest in those states not reporting any NoV-confirmed outbreaks, but this hypothesis was not supported by the data. In fact, paradoxically, the 15 states that reported no NoV outbreaks in the study period determined a cause in 53% of all outbreaks, compared to 20%-45% in the 35 states that reported at least 1 NoV outbreak. The 11 states that reported >10 NoV outbreaks also reported, on average, more outbreaks per 100,000 population (2.3) compared with the 35 states that reported 0-10 NoV outbreaks (0.8-0.9). The number of NoV outbreaks reported by states, however, was not simply a function of total outbreaks reported; the percentage of NoV outbreaks of those outbreaks of determined etiology also increased significantly, from 0% to 57% (chi square chi square (kī), n a nonparametric statistic used with discrete data in the form of frequency count (nominal data) or percentages or proportions that can be reduced to frequencies. for trend; p > 0.001), which suggests better outbreak investigation and testing for NoV. Illness Information on physician visits and hospitalization hospitalization /hos·pi·tal·iza·tion/ (hos?pi-t'l-i-za´shun) 1. the placing of a patient in a hospital for treatment. 2. the term of confinement in a hospital. was complete in 112 (37%) of all 305 NoV outbreaks. Of 3,370 persons affected in these 112 outbreaks, 329 (10%) sought care from a physician, and 33 (1%) were hospitalized. Setting For 278 (91%) of the 305 NoV outbreaks where the site of food consumption or preparation was recorded, restaurants, caterers, or food outlets were associated with 108 (39%), private homes with 35 (13%), daycare facilities or schools with 27 (10%), workplace with 18 (6%), nursing homes or hospitals with 14 (5%), and other settings with 76 (27%). Comparison of Bacterial and NoV Outbreaks We compared selected epidemiologic and clinical features of NoV outbreaks (n = 136), bacterial outbreaks (n = 173), and outbreaks of unknown etiology (n = 907), where information was complete. Of the 173 bacterial outbreaks, 79 (46%) were attributed to Salmonella salmonella Any of the rod-shaped, gram-negative, non-oxygen-requiring bacteria that make up the genus Salmonella. Their main habitat is the intestinal tract of humans and other animals. spp., 27 (16%) to Clostridium clostridium Any of the rod-shaped, usually gram-positive bacteria (see gram stain) that make up the genus Clostridium. They are found in soil, water, and the intestinal tracts of humans and other animals. Some species grow only in the complete absence of oxygen. spp., 20 (12%) to Staphylococcus aureus Staphylococcus au·re·us n. A bacterium that causes furunculosis, pyemia, osteomyelitis, suppuration of wounds, and food poisoning. Staphylococcus aureus Staphylococcus pyogenes , 19 (11%) to 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., 13 (8%) to 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. , 7 (4%) to Bacillus cereus Bacillus ce·re·us n. A species of Bacillus that causes an emetic type and a diarrheal type of food poisoning in humans. , 6 (3%) to 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. spp., and 2 (1%) to other bacterial pathogens. NoV outbreaks were significantly larger than outbreaks of bacterial or unknown etiology (median number of cases per outbreak = 25 versus 15 and 7, respectively. Wilcoxon rank sum test: p < 0.001) (Table 2). Viral outbreaks had a shorter duration of illness compared to bacterial outbreaks but one similar to that of outbreaks of unknown etiology (median duration [less than or equal to] 48 hours = 82%, 40%, and 85% of outbreaks, respectively). Vomiting was more often a predorninant symptom (reported by >50% of ill persons) in NoV outbreaks than in outbreaks of bacterial or unknown etiology (p = 0.001) and was reported in all 136 NoV outbreaks. Fever, however, was less often reported in outbreaks of NoV disease. The median incubation period was significantly longer in outbreaks of NoV gastroenteritis: 85% of these outbreaks featured a median incubation period >24 hours compared with 39% in outbreaks of bacterial cause and 43% in outbreaks of unknown etiology. This finding may be explained by outbreaks caused by preformed toxins from certain bacteria (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. , Clostridium perfringens Clostridium per·frin·gens or Clostridium welchii n. Gas bacillus. Clostridium perfringens Infectious disease An anaerobic gram-positive spore-forming rod, widely distributed in nature and present in the , B. cereus cereus: see cactus. cereus Any of various large cacti (genus Cereus and related genera) of the western U.S. and tropical New World, including the saguaro and the organ-pipe cactus (Lemairocereus thurberi, also L. marginatus or C. thurberi). ), which tend to have shorter incubation periods. NoV outbreaks were strongly associated with eating salads, sandwiches, and produce: these items were implicated in 56% of the 76 NoV outbreaks in which a food item was identified, compared with 19% of 124 bacterial outbreaks and 28% of 408 outbreaks of unknown etiology (chi-square test chi-square test: see statistics. : p < 0.05) (Table 3). NoV outbreaks were significantly less often associated with meat dishes than bacterial outbreaks and outbreaks of unknown etiology (11% versus 44% and 34%, respectively: p < 0.05). A foodhandler was more likely to be implicated in a NoV outbreak (48% of 94 outbreaks with available data) than in either a bacterial outbreak (20% of 102 outbreaks) or an outbreak of unknown etiology (9% of 564 outbreaks) (p < 0.001). Specimen Screening Data from 6 States, 2000 In the 6 states for which data on specimen testing were obtained, the percentage of outbreaks tested for NoV that were positive was 44%-100%, and the total percentage in all 6 states was 79% (Table 4). Even in these states, NoV testing was much less likely to be performed than was testing for bacteria. Of 220 outbreaks from which stool samples were collected, specimens from 85 (39%) were tested for NoV compared to 207 (94%) tested for bacteria. Specimens from 55 outbreaks (25%) tested negative for bacteria, but no further testing for viruses was performed. The overall percentage of all outbreaks with specimens that tested positive for NoV was 30%, but in 2 states that tested all specimens for NoV (Georgia and Minnesota), the average percentage was 43% (22/51) compared with 27% (45/169) in the 4 other states that did not test fully for NoV. Assuming that these 4 states had tested specimens from these outbreaks for NoV, 110 (50%) of the 220 outbreaks with specimens collected in all 6 states would have been confirmed as caused by NoV. Discussion The introduction of RT-PCR in the 1990s increased the percentage of all outbreaks attributable to NoV in the United States from <1% in 1991 to 12% in 2000. Nonetheless, noroviruses remain grossly underestimated as a cause of gastroenteritis outbreaks. From 1998 through 2000, most NoV outbreaks (76%) were reported from 11 states; 36 states, generally those with no PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) capability, reported either few or no outbreaks. Using data from 6 states, we estimated that if all specimens were tested for viruses, half of all foodborne outbreaks in the United States could be attributable to NoV. Even in these 6 states, bacteria were more likely to be tested for than viruses; specimens from 25% of outbreaks were negative for bacteria but not further tested. We also show that NoV outbreaks affect almost 50% more persons than in bacterial outbreaks (median = 25 versus 15 persons affected). Although NoV outbreaks were generally of short duration, symptoms were sufficiently severe in 9.8% of patients to require medical care and in 1%, hospitalization. In addition to a historic lack of diagnostic assays, a further reason for underrecognition of NoV is a lack of specimens and epidemiologic information gathered from outbreaks that exhibit clinical features characteristic of viral gastroenteritis viral gastroenteritis Intestinal flu Infectious disease A generic term for GE induced by viruses Clinical presentations 1. Epidemic VGE, most often caused by the Norwalk agent or Norwalk-like viruses Clinical N&V, diarrhea, abdominal pain, anorexia, . We expected states that do not test for NoV to report more outbreaks of unknown etiology, but this was not the case. In fact, states that reported no NoV outbreaks also reported the lowest percentage of outbreaks with an undetermined etiology (47%, Table 1). This bias in the etiologic distribution of reported outbreaks toward bacterial causes that can be easily determined is further suggested by the lower number of outbreak reports in states with <10 NoV outbreaks from 1998 though 2000 (0.8-0.9 outbreaks/100,000 persons) compared with those states that reported >10 NoV outbreaks (2.3 outbreaks/100,000 persons). Genuine differences in the incidence of NoV disease (e.g., rural/urban) or different patterns of reporting disease among communities in different states are also possible. We found that >56% of foodborne NoV outbreaks were associated with eating salads, sandwiches, or fresh produce, which confirms that contamination of foods requiring handling but no subsequent heating is an important source of NoV infection (9,20-22). Despite their well-documented role in large multistate mul·ti·state adj. Of, relating to, or involving several states: a multistate environmental campaign. NoV outbreaks (23-25), oysters have not been frequently associated with NoV disease in the last 10 years in the United States. We excluded only 2 multistate NoV outbreaks from the analysis, 1 of which was linked to oysters. Restaurants or caterers were associated with 39% of NoV outbreaks, yet in >50% of NoV outbreaks, no foodhandler was implicated. This finding probably reflects a lack of positive evidence rather than the actual ruling out of a foodhandler's involvement. Although asymptomatic a·symp·to·mat·ic adj. Exhibiting or producing no symptoms. Asymptomatic Persons who carry a disease and are usually capable of transmitting the disease but, who do not exhibit symptoms of the disease are said to be infections may play a role in transmission (26), and foodhandlers are likely to underreport un·der·re·port tr.v. un·der·re·port·ed, un·der·re·port·ing, un·der·re·ports To report (income or crime statistics, for example) as being less than actually is the case. illness, some outbreaks with no foodhandler implicated may be due to contamination of fresh produce at the source, as has been previously documented for NoV (21,27) and other foodborne viruses transmitted by the feco-oral route (28). Our projected number of NoV outbreaks in each state may be overestimated because outbreaks that were tested for NoV were likely to have been more characteristic of NoV disease than those not tested. However, we only applied the proportion of outbreaks positive for NoV (79%) to outbreaks of unknown etiology that had already tested negative for bacteria. Moreover, between them, the 2 states that tested all nonbacterial outbreaks for NoV found 43% of outbreaks attributable to NoV, consistent with our estimate from all 6 states. Biases in surveillance data complicate com·pli·cate tr. & intr.v. com·pli·cat·ed, com·pli·cat·ing, com·pli·cates 1. To make or become complex or perplexing. 2. To twist or become twisted together. adj. 1. straightforward 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 estimate of outbreaks with specimens from 6 states, to the group of reported outbreaks with no specimens collected in the same 6 states and in other states. Certain clinical characteristics of outbreaks of unknown etiology were similar to those of NoV outbreaks (e.g., percentage of patients vomiting); other epidemiologic characteristics were similar to those for bacterial outbreaks (e.g., implicated food). Etiologic make-up of outbreaks with no specimens collected is also likely to differ between states. Since specimens remain less likely to be collected from outbreaks of acute gastroenteritis of short duration, we think our estimate can be reasonably extrapolated to all outbreaks of unknown etiology. Only a few small studies have looked at the relative impact of NoV as a cause of foodborne illness (Table 5), and none have fully tested for NoV with PCR. A small study of enhanced surveillance during 1 year in a Swedish municipality MUNICIPALITY. The body of officers, taken collectively, belonging to a city, who are appointed to manage its affairs and defend its interests. found 6% of all foodborne outbreaks, but 38% of 13 that were laboratory-confirmed, to be attributable to caliciviruses (30). Our estimate of 50% of foodborne outbreaks being attributable to NoV is higher than estimates that rely on epidemiologic criteria (33%41%) (6,8), consistent with the low sensitivity of such criteria (CDC, unpub, data). Our estimate of percentage of outbreaks attributable to NoV is lower than Mead's figure of 66% of all foodborne illness of known etiology being caused by NoV (l). However, our finding that NoV outbreaks are >50% larger than bacterial outbreaks suggests that the total number of cases associated with our estimate of outbreaks is comparable to Mead's estimate. We may have overestimated the size of NoV outbreaks and the proportion of persons seeking care since these larger outbreaks of more serious illness may be more likely to be reported to be spoken of; to be mentioned, whether favorably or unfavorably. See also: Report . However, our estimates are not inconsistent with a study in the United Kingdom that reported the median size of NoV outbreaks to be 21 persons and the hospitalization rate to be 0.3% (32). The very low infective infective /in·fec·tive/ (in-fek´tiv) 1. capable of producing infection. 2. infectious (1). in·fec·tive adj. Capable of producing infection; infectious. dose of NoV (33) allows for extensive transmission by means of contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. food and subsequent person-to-person spread. Data on other variables may also be biased. For instance, that 61% of bacterial outbreaks would have a median incubation of <24 hours is surprising, given that 69% of the analyzed bacterial outbreaks were attributed to Salmonella spp., Shigella spp., Campylobacter spp., 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. , which have longer incubation periods. Finally, since no standard criteria are required for an outbreak to be classified as foodborne and since NoV are more often spread from person-to-person than bacteria, the dataset from 6 states that we used may have resulted in an overestimate o·ver·es·ti·mate tr.v. o·ver·es·ti·mat·ed, o·ver·es·ti·mat·ing, o·ver·es·ti·mates 1. To estimate too highly. 2. To esteem too greatly. of the impact of foodborne NoV. Efforts are required to increase the capacity of states to investigate outbreaks, irrespective of suspected cause, and include improved specimen collection and more widespread testing for viruses. Evaluation of epidemiologic criteria is needed to assess how best these can be used to guide testing strategies when laboratory resources are limited. Better appreciation of the exact causes of the large number of outbreaks of undetermined etiology will help better target measures to prevent foodborne disease. Furthermore, to be able to identify novel and intentionally introduced pathogens, the ability of state health departments to quickly investigate outbreaks and discount common causes is critical. "Real-time" collection systems of epidemiologic and sequence data from different outbreaks, such as developed in Europe (34) and the United States, can provide insights into the epidemiology of NoV (35) and will allow for rapid comparison of data to rapidly identify common risk factors (such as foods contaminated at source) and implement control measures. While these initiatives are developed, however, the high disease impact of outbreaks of NoV illness should prompt prioritization of development and implementation of prevention measures, such as foodhandler education, by food safety agendas.
Table 1. Foodborne outbreaks of gastroenteritis of known
and unknown etiology by states grouped by number of reports
of norovirus (NoV)-confirmed outbreaks, United States, 1998-2000
All reported outbreaks
No. of NoV
outbreaks No. of Total Determined
reported states no. etiology
by states reporting (R *) (%)
>20 2 382 (2.3) 166 (43)
11-20 9 2,273 (2.3) 447 (20)
6-10 4 304 (0.8) 136 (45)
[less than 21 830 (0.9) 269 (32)
or equal
to] 5
None 15 243 (0.8) 128 (53)
([dagger])
Total 51 4,032 (1.4) 1,146 (28)
All reported NoV outbreaks reported
outbreaks
No. of NoV % of all
outbreaks Undetermined No. (% outbreaks with
reported etiology of all determined
by states (%) outbreaks) etiology
>20 216 (57) 94 (25) 57
11-20 1,826 (80) 138 (6) 31
6-10 168 (55) 33 (11) 24
[less than 561 (68) 40 (5) 15
or equal
to] 5
None 115 (47) 0 (0) 0
Total 2,886 (72) 305 (8) 27
* R = outbreaks reported per 100,000 population, using
U.S. Census data 2000.
([dagger]) Includes District of Columbia.
Table 2. Selected epidemiologic and clinical features of foodborne
outbreaks of gastroenteritis of noroviral, bacterial, and unknown
cause, United States, 1998-2000 *
Etiology of outbreak
Norovirus Bacterial
(N = 136) (N = 173)
Features ([dagger]) (%) (%)
No. of persons ill
[less than or
equal to] 10 22 (16) 65 (38)
>10 114 (84) 108 (62)
Median no. of persons/ 25 persons 15 persons
outbreak (range) (2-199) (2-736)
Median duration
of illness (h)
[less than or
equal to] 48 111 (82) 70 (40)
>48 25 (18) 103 (60)
Median incubation
period (h)
[less than or
equal to] 24 21 (15) 105 (61)
25-48 82 (60) 13 (7)
>48 33 (25) 55 (32)
% of persons vomiting
[less than or
equal to] 50 19 (14) 114 (68)
>50 117 (86) 59 (32)
% of persons with fever
[less than or
equal to] 50 90 (66) 100 (57)
>50 46 (34) 73 (42)
Etiology
of
outbreak
Unknown p value
(N = 907) ([double
Features ([dagger]) (%) dagger])
No. of persons ill
[less than or
equal to] 10 544 (60) <0.001
>10 363 (40)
Median no. of persons/ 7 persons 0.001
outbreak (range) (2-800) ([section])
Median duration
of illness (h)
[less than or 0.001
equal to] 48 763 (85) ([paragraph])
>48 134 (15)
Median incubation
period (h)
[less than or
equal to] 24 517 (57) <0.001
25-48 266 (29)
>48 124 (14)
% of persons vomiting
[less than or
equal to] 50 352 (39) <0.001
>50 555 (60)
% of persons with fever
[less than or
equal to] 50 752 (83) <0.001
>50 155 (17)
* Data are no. (%), unless otherwise noted.
([dagger]) No significant differences found in proportions of ill
persons with diarrhea or abdominal cramping.
([double dagger]) Chi-square test for unequal odds unless otherwise
noted. p value refers to comparison of norovirus (NoV) outbreaks to
both bacterial and unknown outbreaks separately unless otherwise noted.
([section]) Wilcoxon rank sum test comparing median values.
([paragraph]) Significant association only between NoV and bacterial
outbreaks.
Table 3. Role of different foods and foodhandlers in outbreaks
of gastroenteritis of noroviral, bacterial, and unknown cause,
United States, 1998-2000 *
Cause of
outbreak
Norovirus Bacteria
no. (%) no. (%)
Total outbreaks with data
on implicated food 76 124
Implicated food
Salad 20 (26) 20 (16)
Sandwich 10 (13) 0
Produce/fruit 13 (17) 4 (3)
Meat dish 8 (11) 50 (40)
Fish dish 4 (5) 9 (7)
Bakery product 5 (7) 2 (2)
Oysters 2 (3) 2 (2)
Other various ([section]) 14 (18) 37 (30)
Total outbreaks with data 94 102
on investigation of
foodhandler
Foodhandler implicated
Yes 45 (48) 20 (20)
No 49 (52) 82 (80)
Cause of
outbreak
Unknown p value
no. (%) ([dagger])
Total outbreaks with data
on implicated food 408
Implicated food
Salad 73 (18) NS
Sandwich 24 (6) <0.05
([double
dagger])
Produce/fruit 15 (4) <0.001
Meat dish 139 (34) <0.001
Fish dish 19 (5) NS
Bakery product 15 (4) NS
Oysters 12 (3) NS
Other various ([section]) 111 (27) ND
Total outbreaks with data 564
on investigation of
foodhandler
Foodhandler implicated
Yes 51 (9) <0.001
No 513 (91)
* ND, not done, NS, not significant.
([dagger] Chi-square test: p value refers to comparison
of norovirus (NoV) outbreaks with both bacteria and
unknown outbreaks separately.
([double dagger]) p < 0.001 when comparing NoV outbreaks
with bacterial outbreaks.
([section]) No difference noted for dairy products (3%-5%),
cold meats (2%-4%), egg dishes (0%-1%), beverages (1%-4%),
or ice (0%-1%).
Table 4. Laboratory testing of fecal specimens from foodborne
outbreaks of gastroenteritis and projected number of norovirus
(NoV)-confirmed outbreaks in 6 states, 2000
No. positive/no. tested
Total with
Total specimens Tested Tested
reported (% of total only for only for
State outbreaks outbreaks) bacteria NoV
MD 116 42 (36) 13/35 2/2
MN 41 32 (78) 10/10 0/1
GA 26 19 (73) 9/9 0/0
NY 60 35 (58) 19/28 1/2
FL 274 40 (15) 11/26 1/3
OH 83 52 (63) 8/22 0/0
Total 600 220 (37) 70/130 4/8
No. positive/no. tested
Tested for both
bacteria and
NoV
Total for
bacteria Total for
State Bacteria NoV (%) NoV (%)
MD 0/5 5/5 13/40 (33) 7/7 (100)
MN 2/21 15/21 12/31 (39) 15/22 (68)
GA 2/10 7/10 11/19 (58) 7/10 (70)
NY 0/5 4/5 19/33 (58) 5/7 (71)
FL 0/6 3/6 11/32 (47) 4/9 (44)
OH 0/30 29/30 8/52 (15) 29/30 (97)
Total 4/77 63/77 74/207 (38) 67/85 (79)
Total NoV
outbreaks
No. with (% outbreaks
unknown with specimens)
etiology
not tested Projected
State for NoV * Actual ([dagger])
MD 22 7 (17) 29 (69)
MN 0 15 (47) 15 (47)
GA 0 7 (37) 7 (37)
NY 9 5 (14) 11 (31)
FL 11 ([double 4 (10) 9 (23)
dagger])
OH 13 ([section]) 29 (56) 42 (81)
Total 55 67 (30) 110 (50) (b)
* Derived by subracting nominator from denominator in column 4, i.e.,
the number of outbreaks tested only for bacteria and with negative test
results.
([dagger]) Calculated by multiplying value in column 10 by percentage
in column 9 and adding to value in column 11.
([double dagger]) Excludes 4 confirmed outbreaks of other causes (3
of Cryptosporidium and 1 of chemical cause).
([section]) Excludes 1 confirmed outbreak of chemical cause.
Table 5. Estimates of the role of norovirus (NoV) in foodborne
outbreaks of gastroentiritis *
No. of
Years foodborne
Place (reference) of data outbreaks
United Kingdom (31) 1995-1996 341
Sweden (30) 1998-1999 85
Sweden (29) 1994-1998 92
New Zealand ([dagger]) 2000-2002 383
The Netherlands
([double dagger]) 2002 59
United States (6) 1982-1989 1049
United States (8) 1981-1998 295
United States
([section]) 2000 600
% of foodborne
outbreaks
Method used to attributable
Place (reference) attribute to NoV to NoV
United Kingdom (31) Electron microscopy 6
Sweden (30) RT-PCR 6
Sweden (29) Electron microscopy 72
New Zealand ([dagger]) RT-PCR 12
The Netherlands
([double dagger]) RT-PCR 27
United States (6) Epidemiologic
criteria 33
United States (8) RT-PCR and
epidemiologic
criteria 41
United States RT-PCR and
([section]) extrapolation 50
* RT-PCR; reverse transcription-polymerase chain reaction.
([dagger]) N. Boxall, pers. comm.
([double dagger]) Y. van Duynhoven, pers. comm.
([section]) Current study.
Acknowledgments We thank all the states that routinely submit data to the Electronic Foodborne Outbreak Reporting System. We are grateful to Robert Tauxe, Patty Griffin, Chris Braden, and persons at the Food and Drug Administration for comments on the manuscript, and to Claudia Chesley for editorial comments. Funding of work was by intramural intramural /in·tra·mu·ral/ (-mu´r'l) within the wall of an organ. in·tra·mu·ral adj. Occurring or situated within the walls of a cavity or organ. funds either from CDC or state public health departments. (1) Efforts in 1998 to improve outbreak reporting resulted in more outbreaks being retrospectively attributed to this period. The current figures for 1993 to 1997 are 65 (2%) of 3,257 outbreaks attributable to NoV and 67% of unknown etiology. References (1.) Mead PS, Slutsker L, Dietz V, Slutsker L, Dietz V, McCagi LF, et al. Food-related illness and death in the United States. Emerg Infect infect /in·fect/ (in-fekt´) 1. to invade and produce infection in. 2. to transmit a pathogen or disease to. in·fect v. 1. Dis. 1999;5:607-25. (2.) Bell BP, Goldoft M, Griffin PM, Davis MA, Gordon DC, Tarr PI, et al. A mnltistate outbreak of Escherichia coli O157:H7-associated bloody diarrhea and hemolytic uremic syndrome hemolytic uremic syndrome n. A syndrome in which hemolytic anemia and thrombocytopenia occur with acute renal failure, marked in children by sudden gastrointestinal bleeding, urine that contains red blood cells and is scanty in volume, and from hamburgers. The Washington experience. JAMA JAMA abbr. Journal of the American Medical Association . 1994;272:1349-53. (3.) Michino H, Araki K, Minami S Minami (kanji 南, hiragana みなみ) is a Japanese word meaning south. There are several Minami wards in Japan, most of them appropriately in the south part of a city:
(at secondary school) → collégiens mpl; lycéens mpl schoolchildren school in Sakai City, Japan, associated with consumption of white radish radish, herbaceous plant (Raphanus sativus) belonging to the family Cruciferae (mustard family), with an edible, pungent root sliced in salads or used as a relish. sprouts sprout v. sprout·ed, sprout·ing, sprouts v.intr. 1. To begin to grow; give off shoots or buds. 2. To emerge and develop rapidly. v.tr. . Am J Epidemiol. 1999;150:787-96. (4.) Lin FY, Morris JG Jr, Trump D, Tilghman D, Wood PK, Jackman N, et al. Investigation of an outbreak of Salmonella enteritidis Salmonella en·ter·it·i·dis n. Gärtner's bacillus. gastroenteritis associated with consumption of eggs in a restaurant chain in Maryland. Am J Epidemiol. 1988; 128:839-44. (5.) 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, CDC Surveill Summ. 2000;49(No.SS-1):1-64. (6.) Hall JA, Goulding JS, Bean NH, Tauxe RV. Hedberg CW. Epidemiologic profiling: evaluating foodborne outbreaks for which no pathogen was isolated by routine laboratory testing: United States. 1982-9. Epidemiol Infect. 2001;127:381-7. (7.) Bresee JS, Widdowson M-A, Monroe SS, Glass RI. Foodborne viral gastroenteritis: challenges and opportunities. Clin Infect Dis. 2002:35:748-53. (8.) Deneen VC, Hunt JM, Paule CR, James Of. Johnson RG. Raymond MJ, et al. The impact of foodborne calicivirus disease: the Minnesota experience. J Infect Dis. 2000;181(Suppl 2):S281-3. (9.) Hedberg CW, Osterholm MT. Outbreaks of food-borne and waterborne viral gastroenteritis. Clin Microbiol Rev. 1993:6:199-210. (10.) Kaplan JE. Feldman R, Campbell DS, Lookabaugh C, Gary GW. The frequency of a Norwalk-like pattern of illness in outbreaks of acute gastroentcritis. Am J Public Health. 1982:72:1329-32. (11.) Greenberg HB, Valdesuso J, Yolken RH, Gangarosa E. Gary W. Wyatt RG, et al. Role of Norwalk virus Nor·walk virus n. A norovirus. Norwalk virus (nôr´wôlk), n. in outbreaks of nonbacterial gastroenteritis. J Infect Dis. 1979;139:564-8. (12.) Monroe SS, Glass RI, Noah N, Flewett TH, Caul EO, Ashton CI. ct al. Electron microscopic Adj. 1. electron microscopic - of or relating to or involving an electron microscope reporting of gastrointestinal viruses in the United Kingdom, 1985-87. J Med Virol. 1991;33:193-8. (13.) Gary GW Jr. Kaplan JE, Stine SE, Anderson LJ. Detection of Norwalk virus antibodies and antigen with a biotin-avidin immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. . J Clin Microbiol. 1985;22:274-8. (14.) Kaplan JE, Gary GW. Baron RC, Singh N, Schonberger LB. Feldman R, et al. Epidemiology of Norwalk gastroenteritis and the role of Norwalk virus in outbreaks of acute nonbacterial gastroenteritis. Ann Intern intern /in·tern/ (in´tern) a medical graduate serving in a hospital preparatory to being licensed to practice medicine. in·tern or in·terne n. Med. 1982:96:756-61. (15.) Jones TF, Gerber DE. Perceived etiology of foodborne illness among public health personnel. Emerg Infect Dis. 2001:7:904-5. (16.) Jiang X, Wang J, Graham DY, Estes MK. Detection of Norwalk virus in stool by 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 . J Clin Microbiol. 1992;30:2529-34. (17.) Moe CL, Gentsch J, Ando T, Grohmann G. Monroe SS. Jiang X, et al. Application of PCR to detect Norwalk virus in fecal fecal /fe·cal/ (fe´k'l) pertaining to or of the nature of feces. fe·cal adj. Relating to or composed of feces. fecal pertaining to or of the nature of feces. specimens from outbreaks of gastroenteritis. J Clin Microbiol. 1994:32:642-8. (18.) Fankhauser RL, Monroe SS, Noel JS, Ando TA, Glass RI. Epidemiologic and molecular trends of Norwalk-like viruses associated with outbreaks of gastroenteritis in the United States. J Infect Dis. 2002;186:1-7. (19.) Centers for Disease Control and Prevention. Guide to confirming the diagnosis in foodborne diseases. [cited 2004 Feb 1].Available from http://www.cdc.gov/foodborneoutbreaks/guide_fd.htm (20.) Daniels NA, Bergmire-Sweat DA, Schwab KJ, Hendricks KA. Red@ S, Rowe SM, ct al. A foodborne outbreak of gastroenteritis associated with Norwalk-like viruses: first molecular traceback to dell sandwiches contaminated during preparation. J Infect Dis. 2000;181:1467-70. (21.) Ponka A, Maunula L, von Bonsdorff CH. Lyytikainene O. Outbreak of calicivirus gastroenteritis associated with eating frozen raspberries. Eurosurveillance. 1999:4:66-9. (22.) Kuritsky JN, Osterholm MT, Greenberg HB, Korlath JA, Godes JR, Hedberg CW, el al. Norwalk gastroenteritis: a community outbreak associated with bakery product consumption. Ann intern Med. 1984;100:519-21. (23.) Dowell SF, Groves C, Kirkland KB, Cicirello HG, Ando T, Jin Q, et al. A multistate outbreak of oyster-associated gastroenteritis: implications for interstate tracing of contaminated shellfish shellfish, popular name for certain edible mollusks (see Mollusca), e.g., oysters, clams, and scallops, and for certain edible crustaceans, e.g., crabs, lobsters, and shrimps. All are aquatic invertebrates with shells; they are not fish. . J Infect Dis. 1995:171:1497-503. (24.) Kohn MA, Farley TA. Ando T, Curtis M. Wilson SA, Jin Q, et al. An outbreak of Norwalk virus gastroenteritis associated with eating raw oysters raw oysters food consumed as a love potion. [Popular Folklore: Misc.] See : Aphrodisiacs : implications for maintaining safe oyster oyster, edible bivalve mollusk found in beds in shallow, warm waters of all oceans. The shell is made up of two valves, the upper one flat and the lower convex, with variable outlines and a rough outer surface. beds. JAMA. 1995:273:466-71. (25.) Berg DE, Kohn MA, Farley TA, McFarland LM. Multi-state outbreaks of acute gastroenteritis traced to fecal-contaminated oysters harvested in Louisiana. J Infect Dis. 2000;181(Suppl 2):S381-6. (26.) Parashar UD, Dow L, Fankhauser RL, Humphrey CD, Miller J. Ando T. et al. An outbreak of viral gastroenteritis associated with consumption of sandwiches: implications for the control of transmission by food handlers handlers persons involved in the handling of, for example, circus animals. Includes grooms, milkers, herdsmen, strappers. Used mostly in referring to persons handling animals for show or auction. . Epidemiol Infect. 1998; 121:615-21. (27.) Gaulin CD, Ramsay D, Cardinal P, D'Halevyn M-A. Epidemie de gastro-enterite d'origine virale associee a la consommation de framboises importees. Can J Public Health. 1999;90:37-40. (28.) Dentinger CM. Bower WA, Nainan OV, Cotter cot·ter n. 1. A bolt, wedge, key, or pin inserted through a slot in order to hold parts together. 2. A cotter pin. [Origin unknown. SM, Myers G. Dubusky LM, et al. An outbreak of hepatitis A Hepatitis A Definition Hepatitis A is an inflammation of the liver caused by a virus, the hepatitis A virus (HAV). It varies in severity, running an acute course, generally starting within two to six weeks after contact with the virus, and lasting no associated with green onions. J Infect Dis. 2001;183:1273-6. (29.) Hedlund KO, Rubilar-Abreu, Svensson L. Epidemiology of calicivirus infections in Sweden, 1994-1998. J Infect Dis. 2000;181 (Suppl 2):S275-80. (30.) Lindqvist R, Andersson Y, Lindback J, Wegscheider M, Eriksson Y, Tidestrom L, et al. A one-year study of foodborne illnesses in the municipality of Uppsala, Sweden. Emerg Infect Dis. 2001;7:588-92. (31.) Evans HS. Madden mad·den v. mad·dened, mad·den·ing, mad·dens v.tr. 1. To make angry; irritate. 2. To drive insane. v.intr. To become infuriated. P, Douglas C. Adak GK, O'Brien SJ, Djuretic T, et al. General outbreaks of infectious intestinal disease in England and Wales England and Wales are both constituent countries of the United Kingdom, that together share a single legal system: English law. Legislatively, England and Wales are treated as a single unit (see State (law)) for the conflict of laws. : 1995 and 1996. Commun Dis Public Health. 1998; 1:165-71. (32.) Lopman BA. Adak GK, Reacher MH, Brown DW. Two epidemiologic patterns of norovirus outbreaks: surveillance in England and Wales, 1992-2000. Emerg Infect Dis. 2003;9:71-7. (33.) Green KY. Chanock RM. Kapikian AZ. Human caliciviruses. In: Knipe DM, Howley PM, editors. Fields virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression . Vol 1. 4th ed. Philadelphia: Lippincott Williams & Wilkins; 2001. p. 841-74. (34.) Koopmans M, Vennema H, Heersma H, van Strien E. van Duynhoven Y, Brown D, et al. Early identification of common-source foodborne virus outbreaks in Europe. Emerg Infect Dis. 2003;9:1136-42. (35.) Widdowson MA. Cramer EH, Hadley L, Bresee JS, Beard RS, Bulens SN, et al. Outbreaks of acute gastroenteritis on cruise ships and on land: identification of a predominant circulating strain of norovirus--United States, 2002. J Infect Dis 2004;190:27-36. Marc-Alain Widdowson, * Alana Sulka, * Sandra N. Bulens, * ([dagger]) R. Suzanne Beard, * Sandra S. Chaves, ([dagger]) ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) Roberta Hammond, ([section]) Ellen D.P. Salehi, ([paragraph]) Ellen Swanson, (#) Jessica Totaro, ** Ray Woron, ([dagger] [dagger]) Paul S. Mead, * Joseph S. Bresee, * Stephan S Stephan is a male given name, a variant of Stephen. This page or section lists people with the given name Stephan. If an internal link for a specific person referred you to this page, you may wish to add the surname to that wikilink. . Monroe, * and Roger I. Glass * * Centers for Disease Control and Prevention, Atlanta, Georgia, USA; ([dagger]) Atlanta Research and Education Foundation, Atlanta, Georgia, USA; ([double dagger]) Department of Human Resources The fancy word for "people." The human resources department within an organization, years ago known as the "personnel department," manages the administrative aspects of the employees. , Atlanta, Georgia, USA; ([section]) Bureau of Community Environmental Health, Tallahassee, Florida For other uses, see Tallahassee (disambiguation). Tallahassee is the capital of the State of Florida and the county seat of Leon County. Tallahassee became the capital of Florida in 1824. As of 2006, the population recorded by the U.S. , USA; ([paragraph]) Ohio Department of Health, Columbus, Ohio Columbus is the capital and the largest city of the American state of Ohio. Named for explorer Christopher Columbus, the city was founded in 1812 at the confluence of the Scioto and Olentangy rivers, and assumed the functions of state capital in 1816. , USA; (#) Department of Health, Minneapolis, Minnesota “Minneapolis” redirects here. For other uses, see Minneapolis (disambiguation). Minneapolis (pronounced IPA: /ˌmɪniˈæpəlɪs/) is the largest city in the U.S. , USA; ** Maryland Department of Health and Mental Hygiene mental hygiene, the science of promoting mental health and preventing mental illness through the application of psychiatry and psychology. A more commonly used term today is mental health. , 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; and ([dagger] [dagger]) New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of State Department of Health, Troy, New York Troy is a city in New York, U.S., and the county seat of Rensselaer County. As of the 2000 census, the population was 49,170; in 1910, the population was 76,813. The city's motto is Ilium fuit, Troja est, which means "Troy was, Troy is. , USA Address for correspondence: Marc-Alain Widdowson, Respiratory and Enteric Virus enteric virus n. See enterovirus. Branch, Centers for Disease Control and Prevention, Mailstop G04.1600 Clifton Rd NE, Atlanta, GA 30333, USA; fax: 1-404 639-3645; email: zux5@cdc.gov Use of trade names is for identification only and does not imply endorsement by the Public Health Service or by the U.S. 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 . Dr. Widdowson is a medical epidemiologist in the Respiratory and Enteric Virus Branch, National Center for Infectious Diseases infectious diseases: see communicable diseases. , CDC. His research interests include all aspects of the epidemiology and prevention of viral gastroenteritis. |
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