Two epidemiologic patterns of Norovirus outbreaks: surveillance in England and Wales, 1992-2000. (Research).In the period 1992-2000, the Public Health Laboratory Service 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 collected standardized epidemiologic data on 1,877 general outbreaks of Norovirus (formerly "Norwalk-like virus 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 ") infection 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. . Seventy-nine percent of general outbreaks occurred in health-care institutions, i.e., hospitals (40%) and residential-care facilities (39%). When compared with outbreaks in other settings, those in health-care institutions were unique in exhibiting a winter peak (p<0.0001); these outbreaks were also associated with significantly higher death rates and prolonged duration but were smaller in size and less likely to be foodborne. These data suggest that Norovirus infection has considerable impact on the health service and the vulnerable populations residing in institutions such as hospitals and residential homes. A distinct outbreak pattern in health-care institutions suggests a combination of host, virologic, and environmental factors that mediate these divergent epidemiologic patterns. ********** Recent population-based studies have shown that Noroviruses ([NVs] formal name: Norovirus; formerly "Norwalk-like viruses") are the most commonly identified cause of infectious intestinal diseases in Western European communities European Community: see European Union. European Community (EC) Organization formed in 1967 with the merger of the European Economic Community, European Coal and Steel Community, and European Atomic Energy Community. (1,2). These viruses account for an estimated 6% and 11% of all infectious intestinal diseases in England and the Netherlands, respectively (1,2) and for an estimated 23 million cases of NV 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. each year (3). NVs are also the most common cause of outbreaks of infectious intestinal diseases in Western Europe Western Europe The countries of western Europe, especially those that are allied with the United States and Canada in the North Atlantic Treaty Organization (established 1949 and usually known as NATO). and North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. (3-7). Three factors contribute to the considerable impact of disease caused by NV: a large human reservoir of infection (2,8), a very low infectious dose (9), and the ability to be transmitted by a variety of routes. Person-to-person spread by means of the fecal-oral route Many diseases can be passed when fecal particles from one host are introduced into the mouth of another potential host. This is referred to as the fecal-oral route (or alternatively, the oral-fecal route or orofecal route). or aerosol aerosol (âr`əsōl,–sŏl): see colloid. aerosol System of tiny liquid or solid particles evenly distributed in a finely divided state through a gas, usually air. formation after projectile vomiting pro·jec·tile vomiting n. Expulsion of the contents of the stomach with great force. projectile vomiting Pediatric neurology Violent and 'explosive' vomiting without antecedent nausea, or vomiting at the peak of is the most commonly recognized mode of transmission (4,10), although foodborne (3,11) and waterborne (12-14) transmission are also well documented. Gastroenteritis gastroenteritis: see enteritis. gastroenteritis Acute infectious syndrome of the stomach lining and intestines. Symptoms include diarrhea, vomiting, and abdominal cramps. caused by NV is mild and self-limiting in the absence of other factors. Kaplan et al. and others have proposed that NV outbreaks can be recognized on clinical symptoms (short duration and incubation) and epidemiology (high attack rates and high frequency of 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. ) alone (4,15-17). Unlike rotavirus rotavirus /ro·ta·vi·rus/ (ro´tah-vi?rus) any member of the genus Rotavirus. ro´taviral Rotavirus /Ro·ta·vi·rus/ (ro´tah-vi?rus , NVs affect all age groups (2,8) The highest incidence is in children <5 years of age (2,18), but the greatest impact of NV is probably an economic one among the elderly in health-care institutions (4,6,19,20). We describe the epidemiology of NVs in different outbreak settings. The data we present were collected by routine surveillance of general outbreaks of infectious intestinal diseases in England and Wales from 1992 to 2000 (4,21). Laboratory report surveillance of NV has been shown to be subject to a high degree of underascertainment (8) and age bias (4). Therefore, routine laboratory reporting of cases does not serve as a reliable sample for illness due to NV. For this reason, we describe only outbreak data. Methods Since January 1992, the Public Health Laboratory Service Communicable Disease Surveillance Centre has operated a standardized comprehensive surveillance system for general outbreaks of infectious intestinal diseases (see Appendix). The details of how this system operates are described elsewhere (4,21). In 1995 and 1996, the Public Health Laboratory Service instituted an active reporting program for outbreaks of NV through the 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. Network. Ten electron microscopy units, representing the principal regional diagnostic centers for 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, in England, reported to the Centre all general outbreaks for which clinical specimens had been submitted. These reports were then integrated into the existing outbreak surveillance system, and standardized epidemiologic data were sought from investigating public health physicians. The public health physicians contacted were asked to return completed questionnaires when investigations were concluded. Data from these questionnaires were entered and stored on an Epi Info Epi Info is a public domain statistical software for epidemiology developed by Centers for Disease Control and Prevention. Developed by the Centers for Disease Control and Prevention (CDC) in Atlanta, Georgia (USA), Epi Info has been in existence for over 20 years and is 6.0 database (23). Statistical Analysis We used the statistical software package STATA 6.0 for these analyses (24). Chi-square tests chi-square test: see statistics. were used to compare proportions, and the Student t test was used to compare means. Data on persons affected and duration of outbreaks were observed to follow a non-normal distribution. Therefore, a natural log transformation was performed on the persons affected and duration of outbreak data to normalize normalize to convert a set of data by, for example, converting them to logarithms or reciprocals so that their previous non-normal distribution is converted to a normal one. the distribution of variables and satisfy the normality normality, in chemistry: see concentration. assumption for the t test (25). A reverse natural log transformation was then performed; results are presented as geometric means (mathematics) geometric mean - The Nth root of the product of N numbers. If each number in a list of numbers was replaced with their geometric mean, then multiplying them all together would still give the same result. . Results Completed outbreak questionnaires were returned for 5,241 general outbreaks occurring from January 1, 1992, to December 31, 2000 (response rate 73%). Laboratory confirmation of NV was recorded for 1,877 (36%) outbreaks (Figure 1). The median number of laboratory-confirmed cases in NV outbreaks was 2 (range 1-36). Another 731 outbreaks (14% of all outbreaks) were suspected of being caused by viral agents; 8 outbreaks were attributed to NV plus other pathogens; these outbreaks were excluded from these analyses. [FIGURE 1 OMITTED] Settings Information on setting was available for every NV outbreak (n=1,877). The most common settings were health-care institutions: 754 (40%) outbreaks occurred in hospitals and 724 (39%) in residential-care facilities. Information on the type of unit affected was available for 648 (86%) of 754 hospital outbreaks and 190 (26%) of the 724 in residential-care facilities. NV infection was centered on elderly care and geriatric units in 251 (39%) of 648 hospital outbreaks and 169 (89%) of 190 residential home outbreaks. A total of 147 (7.8%) outbreaks occurred in hotels, 73 (4%) occurred in schools, and 105 (6%) were linked to food outlets (Appendix). Seventy-four outbreaks (3.9%) occurred in other settings such as private homes, holiday camps, and military bases. Illness and Death A total of 57,060 people were affected in the 1,877 NV outbreaks. After excluding hospital outbreaks (n=711), we recorded 128 hospitalizations (case-hospitalization rate = 33/ 10,000 cases) from 52 outbreaks (mean hospitalizations per outbreak 0.19; range 0-38). Forty-three deaths (case-fatality rate 7.5/10,000 cases) occurred in 38 outbreaks (mean deaths per outbreak 0.07; range 0-2); all were associated with outbreaks in hospitals (24 deaths) and residential-care facilities (19 deaths). Time Trends and Seasonality Reports of NV outbreaks peaked in 1995 (367 outbreaks) (Figure 1), falling to 139 outbreaks in 1997. Since then, outbreaks have steadily increased; 281 outbreaks were reported in 2000. Since 1995, outbreaks have shown a strong seasonal peak (Figure 1). Outbreaks begin increasing in September and peak in the months of January, February, and March. Outbreaks in hospitals and residential facilities occur more commonly in the 6 months from November to April than the rest of the year (994/421; ratio 2.36) (Figure 2). Outbreaks in other settings display no winter peak (189/205; ratio 0.92). This difference in the seasonality between outbreaks in health-care institutions and those in other settings is significant ([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. ] 51.1, p<0.0001) [FIGURE 2 OMITTED] Mode of Transmission The reported modes of transmission were as follows (Table 1): person to person in 1,599 (85%) outbreaks; foodborne in 93 (5%) outbreaks; foodborne followed by person-to-person spread in 91 (5%) outbreaks; waterborne in 1 outbreak; unknown in 92 (5%) outbreaks. Person-to-person spread was reported in 716 (95%) of the 754 hospital outbreaks. This figure was a significantly higher proportion than observed in food outlets (22%; 23/105 [[chi square] 551.3; p<0.0001], hotels (64%; 94/147 [[chi square] 175.9; p<0.0001], schools (89%; 65/73 [[chi square] 27.6; p<0.0001 ]), or residential facilities (91.0%; 658/723 [[chi square] 13.9; p=0.0002]). Food outlets were the only setting where foodborne transmission predominated (67%; 70/105). Person-to-person outbreaks occurred more commonly from November to April than in the rest of the year (1,020/ 514; ratio 1.98). Foodborne outbreaks showed a significantly weaker seasonality (105/73; ratio 1.43) than person-to-person outbreaks ([chi square] 3.99; p-0.05). Food Vehicles Specific vehicles were 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. in 72 (39.1%) of the 184 NV outbreaks reported to be transmitted by food. In 12 of these outbreaks, multiple food vehicles were reported, for a total of 86 implicated items. A wide range of food types were reported as vehicles of infection, including oysters, salad vegetables, poultry, red meat, fruit, soups, desserts, and savory savory, name for any plant of the genus Satureja, aromatic herbs and subshrubs of the family Labiatae (mint family). Commonly cultivated as border ornamentals or potherbs are two species of the Mediterranean region and surrounding areas: summer savory (S. snacks. The evidence implicating 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. these food vehicles included cohort studies A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute (55%; 47/86), case-control studies case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. (8%; 7/86), and microbiologic studies (6%; 5/86) (Table 2). Reverse-transcriptase 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 (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) was used to confirm viral contamination in oysters in all five outbreaks where microbiologic evidence was reported. Contributory con·trib·u·to·ry adj. 1. Of, relating to, or involving contribution. 2. Helping to bring about a result. 3. Subject to an impost or levy. n. pl. Factors Contributory factors were reported in 113 (61%) of the 184 foodborne outbreaks. Infected 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. were more commonly identified in food-related NV outbreaks (32%; 58/184) than in those caused by other pathogens (9%; 164/1750) ([chi square] 80.39; p<0.0001). Contamination by an infected food handler was reported less frequently in outbreaks involving oysters than other foods (oysters 0%, other foods 47%; [chi square] 14.69; p<0.0001). Cross-contamination was also reported less frequently in outbreaks involving oysters than other foods (oysters 5%, other foods 17%; [chi square] 3.35; p=0.07). Duration The median duration of outbreaks was 8 days (range 1-139 days). By setting, data on the duration of outbreaks were right-skewed since some outbreaks persisted for exceptionally long periods. The following results are therefore presented as geometric means. The duration of hospital outbreaks (8.8 days; 95% confidence intervals confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. [CI] 8.4 to 9.3) was greater than those in food outlets (3.3 days; 95% CI 2.8 to 3.8; t = -12.699; p<0.0001) and hotels (4.3 days; 95% CI 3.6 to 5.1; t = -7.025; p<0.0001). However, the duration of hospital outbreaks and those in residential facilities did not differ significantly (8.7 days; 95% CI 8.1 to 9.4; t = -0.321; p=0.7) or schools (8.1 days; 95% CI 6.8 to 9.7; t = -0.879; p=0.4) (Table 3). Numbers of Persons Affected The median number of persons affected per outbreak was 21 (range 2-1,200). Data on the number of people affected in outbreaks were right-skewed since a number of outbreaks were exceptionally large. The following results are therefore presented as geometric means. The number affected in hospital outbreaks (17.5; 95% CI 16.4 to 18.5) was significantly lower than for other settings (geometric means 21.5 to 26.5; Table 3). Discussion Examination of the features of NV outbreaks by setting reveals that outbreaks in health-care facilities have a distinctive epidemiologic profile. When compared with outbreaks in other settings, those in health-care institutions were unique in exhibiting a winter peak; they were also associated with higher death rates and prolonged duration but were smaller in size and were less likely to be foodborne. School outbreaks shared some but not all of the features that characterize outbreaks in health-care institutions. Several epidemiologic and biologic reasons may contribute to the divergent seasonality. The respiratory infections Noun 1. respiratory infection - any infection of the respiratory tract respiratory tract infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms season, which increases activity in health-care institutions, occurs concurrently with the peak in NV outbreaks in these facilities. Greater admission of patients in hospitals increases both the population at risk and the opportunities for NV to be introduced. An increase in transfers of people between residential-care facilities and hospitals also facilitates the movement of viruses between institutions. Populations in health-care facilities differ from the rest of the population in that they require nursing care. Health-care settings are semi-closed environments where patients and residents are subject to person-to-person spread and potentially 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. environments. Biologic differences between strains may also result in different clinical patterns. NVs from outbreaks in health-care institutions have less genetic diversity compared with those from other settings (26) or sporadic cases (7), and certain variants are more commonly found in health-care facilities than in other settings (26). Thus, the strong seasonality in health-care institutions may be the result of complex interaction between host, 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. , and environment. If and how these factors contribute to the divergent patterns of health-care-associated and community outbreaks are unknown, but we believe that our findings warrant focused investigation in the UK and elsewhere. The observation that a 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 associated with 1 in every 40 outbreaks and a death with 1 in every 50 outbreaks calls into question the belief that NV gastroenteritis is a trivial disease. Although we have no information about the other health conditions of patients who were hospitalized or died, these figures are generated from laboratory-confirmed outbreaks. Previous estimates generated by Mead et al. (which were derived from Mounts et al.) were based on the assumption that NV causes a certain proportion of gastroenteritis hospitalizations and deaths (11%), an assumption that was not based on diagnostic results (3,27). Deaths were only reported from outbreaks in health-care institutions. The populations in these institutions differ from those found in other settings by virtue of their greater age or presence of other underlying diseases. While NV infection is not likely the principal cause of death in most cases, this infection might constitute an additional burden on patients already weakened by other conditions and thus become an important contributory factor. In hospital outbreaks, attack rates among staff are similar to those among patients (4,28), suggesting that health status is not related to acquisition of disease but to severity of outcome. Therefore, efforts to control NV infection should be directed towards vulnerable persons who already require nursing care because of illness or injury. The only settings in which foodborne transmission predominated were food outlets. That setting was the only category in which the purchase or consumption of food was the main factor linking at-risk populations. In other settings, living, working, or recreational areas were shared by at-risk populations for varying lengths of time, thus increasing the opportunities for person-to-person spread. Even in those instances where foodborne transmission initiated an outbreak within a health-care institution, high levels of person-to-person spread usually followed. Therefore, prolonged levels of contact between persons in semi-closed institutions such as hospitals, residential-care facilities, and schools facilitate person-to-person spread to an extent not seen in other settings, which in turn leads to more prolonged outbreaks. However, schools differ from health-care institutions in terms of the seasonality and duration of NV outbreaks. In this respect, schools are more like hotels, food outlets, and other settings. The number of affected persons was smaller in hospital outbreaks than in all other settings. This finding may reflect the lack of a universally employed definition of the spatial boundaries of an outbreak. In some hospitals, each unit affected was reported as a separate outbreak, resulting in smaller but more numerous outbreaks. In addition, cases that occur in institutions are more easily recognized as part of an outbreak than cases in open settings or the community. Thus, smaller outbreaks occurring in open settings might not be recognized or reported to investigating agencies. The peak in recorded outbreaks seen in the winter of 1995-1996 can largely be seen as a consequence of enhanced surveillance through the development of the Public Health Laboratory Service electron microscopy network. However, there are anecdotal reports of an increase in workload in these laboratories, and other countries also recorded an increase in NV activity during the same period (11). The steady increase of reports from 1998 to 2000 may be due to increased awareness, increasing use of the molecular diagnostics RT-PCR and enzyme immunoassays, or a real increase in the occurrence of outbreaks. Biases in different surveillance systems partly explain the wide variation in estimates of the levels of foodborne transmission in NV outbreaks. The data presented in this report suggest foodborne transmission in 10% of outbreaks in England and Wales. Estimates in Sweden (16%) (6), the Netherlands (17%) (11), and the United States (40%) (3) were all higher; however, figures from these countries are derived from much smaller datasets. In the United States, foodborne outbreaks were more likely to be reported to be spoken of; to be mentioned, whether favorably or unfavorably. See also: Report because surveillance may be focused on detecting foodborne outbreaks (3). The data sources that contribute to a surveillance system are a key factor affecting the estimate of the importance of foodborne transmission. In England and Wales, surveillance is broad-based and collects reports on outbreaks spread by all modes of transmission from a range of public health professionals such as physicians, environmental health officers, and diagnostic laboratories. By contrast, FoodNet, a U.S. network, is designed to detect foodborne infections (29). Since hospitals in England The following is a list of currently operating hospitals in England. London North Central London Name Locale Opened Closed Barnet General Hospital Barnet Chase Farm Hospital Enfield 1948 Highlands Hospital Winchmore Hill 1885 1993 and Wales Wales, Welsh Cymru, western peninsula and political division (principality) of Great Britain (1991 pop. 2,798,200), 8,016 sq mi (20,761 sq km), west of England; politically united with England since 1536. The capital is Cardiff. are in the public sector, they might be expected to readily report outbreaks to the national surveillance scheme. However, by this logic, residential homes (which are privately operated) would not be expected to report outbreaks since they might be under commercial pressures to keep information on infection confidential. The fact that nearly as many outbreak reports came from residential homes as from hospitals in the survey period suggests that reporting predominantly from the public, not the private sector, is not the case. The biases on a passive surveillance system are multiple and cannot be expected to act in only one direction. The importance of NV as a cause of gastroenteritis outbreaks in U.S. nursing homes has been demonstrated by Green et al. (30), although the role of this virus in hospital settings has not. Aside from bias, other reasons such as variability in infection control practices in different health-care systems could result in a real difference in the importance of foodborne transmission or transmission in health-care facilities. Although NV has been estimated to cause 67% of all such illness caused by identified microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. agents (3), only 5% of public health professionals considered this pathogen to be "one of the three most common pathogens causing 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. in the United States" (31); this lack of awareness probably affects outbreak investigation. The link between oysters and NV infection is well described (32-35). These filter feeders filter feeder n. An aquatic animal, such as a clam, barnacle, or sponge, that feeds by filtering particulate organic material from water. filter feeder become contaminated during growth or transport in sewage-contaminated water (33), unlike other food products that become contaminated by an infected food handler or cross-contamination. However, oysters were implicated as the vehicle of infection in <25% of the foodborne outbreaks, and a wide range of other vehicles were also reported. The greatest proportion of these outbreaks was attributed to ready-to-eat foods contaminated by infected food handlers. In the absence of a known zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis reservoir for NVs, the main reservoir of infection appears to be humans. Thus, reducing the incidence of foodborne NV infection requires interventions designed to prevent infected persons from contaminating con·tam·i·nate tr.v. con·tam·i·nated, con·tam·i·nat·ing, con·tam·i·nates 1. To make impure or unclean by contact or mixture. 2. To expose to or permeate with radioactivity. adj. prepared food and sewage from contaminating oyster beds. These data, which show NV as the causative caus·a·tive adj. 1. Functioning as an agent or cause. 2. Expressing causation. Used of a verb or verbal affix. caus agent in 36% of outbreaks, support previous reports that NVs are the most common cause of infectious intestinal diseases in industrialized in·dus·tri·al·ize v. in·dus·tri·al·ized, in·dus·tri·al·iz·ing, in·dus·tri·al·iz·es v.tr. 1. To develop industry in (a country or society, for example). 2. nations (6,11,20,36). NV accounts for a substantial extent of disease and potential economic loss, particularly to the health service where a large proportion of outbreaks occur. Wider consequences include ward closure, delayed discharge, and postponement of operations. Although NVs cause mild symptoms in healthy adults, the consequences of infection in vulnerable populations may be more serious. Considering that the populations of developed countries are aging, ensuring high levels of infection control in institutions caring for vulnerable groups is important. Conclusions These analyses demonstrate the value of maintaining standardized outbreak surveillance over an extended period. By examining the epidemiologic characteristics of general outbreaks of NV by setting, we demonstrated that this pathogen is not merely an extremely common cause of infectious intestinal disease but that its effects vary widely according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the population at risk. Within health-care institutions, NV contributes to substantial illness and is associated with substantial numbers of deaths. The elucidation e·lu·ci·date v. e·lu·ci·dat·ed, e·lu·ci·dat·ing, e·lu·ci·dates v.tr. To make clear or plain, especially by explanation; clarify. v.intr. To give an explanation that serves to clarify. of a distinct outbreak pattern that is characteristic of health-care institutions suggests that a combination of host, virologic, and environmental factors mediate these divergent epidemiologic patterns. Focused research studies need to be developed to investigate the population as well as the microbiologic and behavioral processes that might explain these observations. In addition, population-based studies incorporating virus typing are required to gain a deeper understanding of the epidemiology of sporadic NV infection in the wider population. Such studies are a prerequisite to the development of firm evidence-based and targeted control strategies. Appendix. Surveillance and analysis definitions Outbreak: an incident in which two or more people, thought to have a common exposure, experience a similar illness or proven infection, at least one of them being ill (22). General outbreak: an outbreak that affects members of more than one household, or residents of an institution (36). General outbreak of Norovirus: a general outbreak in which Norovirus is determined to be the causative agent by electron microscopy, RT-PCR, or enzyme 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. in one or more affected persons. Residential facilities: includes residential homes, which provide some assistance in day-to-day living, and nursing homes, which provide care for persons whose infirmity Flaw, defect, or weakness. In a legal sense, the term infirmity is used to mean any imperfection that renders a particular transaction void or incomplete. For example, if a deed drawn up to transfer ownership of land contains an erroneous description of it, an or illness requires nursing care on a regular basis. Food outlets: commercial food retailers including restaurants, pubs, bars, cafeterias, mobile food vendors, and caterers.
Table 1. Primary modes of transmission of Norovirus outbreaks,
England and Wales, 1992-2000
Setting of outbreak Foodborne (a) Person to person (a)
Hospital 10 (1.3) 716 (95.0)
Residential facilities 33 (4.5) 658 (91.0)
School 4 (5.5) 65 (89.0)
Food outlet 70 (66.7) 23 (21.9)
Hotel 42 (28.6) 94 (63.9)
Other 25 (33.8) 43 (58.1)
Total 184 (9.9) 1,599 (85.2)
Setting of outbreak Other/unknown (a) Total
Hospital 28 (3.7) 754
Residential facilities 32 (4.4) 723
School 4 (5.5) 73
Food outlet 12 (11.4) 105
Hotel 11 (7.5) 147
Other 6 (8.1) 75
Total 93 (5.0) 1,877
(a) No. of outbreaks (% of all outbreaks in setting).
Table 2. Microbiologic and statistical evidence of foods implicated
in outbreaks of Norovirus, England and Wales, 1992-2000 (a)
Implicated food Microbiologic evidence Cohort study
Oysters 5 (25%) (b) 9 (45%)
Poultry 0 6 (67%)
Meat 0 3 (60%)
Fish 0 3 (50%)
Salads and vegetables 0 10 (59%)
Other items 0 16 (55%)
Total 5 (6%) 47 (55%)
Implicated food Case-control study Any evidence
Oysters 0 14 (70%)
Poultry 0 6 (67%)
Meat 0 3 (60%)
Fish 1 (16%) 4 (67%)
Salads and vegetables 3 (18%) 13 (76%)
Other items 3 (10%) 19 (65%)
Total 7 (8%) 59 (68%)
Total no. of outbreaks in which rood
Implicated food vehicle implicated
Oysters 20
Poultry 9
Meat 5
Fish 6
Salads and vegetables 17
Other items 29
Total 86
(a) percentages represent outbreaks with evidence per total outbreaks
where food vehicle was implicated.
(b) In certain outbreaks more than one form of evidence was reported.
Table 3. Outbreak characteristics compared by setting of outbreak,
England and Wales, 1992-2000
Setting Median (days) N
Duration of outbreaks
Hospital 8 679
Residential facilities 9 664
School 8 63
Food outlet 3 94
Hotel 5 133
Other 4 69
All settings 8 1,702
Numbers affected per outbreak
Hospital 17 751
Residential facilities 23 723
School 24 73
Food outlet 23 104
Hotel 29 147
Other 29 74
All settings 21 1,872
Geometric mean of duration
Setting (days) (95% CI) (a)
Duration of outbreaks
Hospital 8.8 (8.4 to 9.3)
Residential facilities 8.7 (8.1 to 9.4)
School 8.1 (6.8 to 9.7)
Food outlet 3.3 (2.8 to 3.8)
Hotel 4.3 (3.6 to 5.1)
Other 4.3 (3.6 to 5.1)
All settings 7.7 (7.5 to 8.0)
Numbers affected per outbreak
Hospital 17.5 (16.4 to 18.5)
Residential facilities 21.5 (19.8 to 23.3)
School 24.9 (20.5 to 30.3)
Food outlet 23.4 (19.8 to 27.6)
Hotel 26.5 (23.0 to 30.6)
Other 24.5 (20.2 to 29.7)
All settings 20.3 (19.7 to 21.1)
Setting t test p value
Duration of outbreaks
Hospital
Residential facilities -0.321 0.73
School -0.879 0.40
Food outlet -12.699 <0.0001
Hotel -7.025 <0.0001
Other -8.043 <0.0001
All settings
Numbers affected per outbreak
Hospital
Residential facilities 4.895 <0.0001
School 3.594 <0.0001
Food outlet 3.444 0.001
Hotel 5.729 <0.0001
Other 3.432 0.001
All settings
(a) CI, confidence interval.
Acknowledgments We thank Andre Charlett for reviewing the statistical methods of this report and Sue LeBaigue and Sally Long Sally Long (December 5, 1901-August 12, 1987) was a dancer and motion picture actress from Kansas City, Missouri. She graduated from Eden Hall in Philadelphia, Pennsylvania in 1921. for their assistance with the gastrointestinal diseases gastrointestinal disease, n an abnormal state or function of the GI system. outbreak database. We thank the environmental health officers, consultants in communicable disease control, infection control officers, and virologists who conducted the outbreak investigations presented here. References (1.) Tompkins DS, Hudson MJ, Smith HR, Eglin RP, Wheeler JG, Brett MM, et al. A study of infectious intestinal disease in England: microbiological findings in cases and controls. Commun Dis Public Health 1999;2:108-13. (2.) de Wit MA, Koopmans MP, Kortbeek LM, Wannet WJ, Vinje J, van Leusden F, et al. Sensor, a population-based cohort study on gastroenteritis in the Netherlands: incidence and etiology. Am J Epidemiol 2001;154:666-74. (3.) 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. (4.) Dedman D, Laurichesse H, Caul EO, Wall PG. Surveillance of small round structured virus (SRSV SRSV Small Round Structured Virus SRSV Satellite Robot Simulator Vehicle (NASA) ) infection in England and Wales, 1990-5. Epidemiol Infect 1998;121:139-49. (5.) Lew JF, Valdesuso J, Vesikari T, Kapikian AZ, Jiang X, Estes MK, et al. Detection of Norwalk virus Nor·walk virus n. A norovirus. Norwalk virus (nôr´wôlk), n. or Norwalk-like virus infections in Finnish infants and young children. J Infect Dis 1994;169:1364-7. (6.) Hedlund KO, Rubilar-Abreu E, Svensson L. Epidemiology of calicivirus infections in Sweden, 1994-1998. J Infect Dis 2000;181(Suppl 2):S275-80. (7.) Koopmans M, Vinje J, Duizer E, de Wit MA, van Duynhoven Y. Molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, of human 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. caliciviruses in The Netherlands. In: Chadwick D, Goode JA, editors. Gastroenteritis viruses. Chichester, England: John Wiley John Wiley may refer to:
(8.) Sethi D, Wheeler J, Rodrigues LC, Fox S, Roderick P. Investigtion of underascertainment in epidemiological studies An Epidemiological study is a statistical study on human populations, which attempts to link human health effects to a specified cause. based in general practice. Int J Epidemiol 1999;28:106-12. (9.) Levett PN, Gu M, Luan B, Fearon M, Stubberfield J, Jamieson F, et al. Longitudinal study longitudinal study a chronological study in epidemiology which attempts to establish a relationship between an antecedent cause and a subsequent effect. See also cohort study. of molecular epidemiology of small round-structured viruses in a pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. population. J Clin Microbiol 1996;34:1497-501. (10.) Caul EO. Small round structured viruses: airborne transmission airborne transmission Epidemiology The transmission of pathogens by aerosol, which enter the body by the respiratory tract. See Aerosol. and hospital control. Lancet 1994;343:1240-2. (11.) Koopmans M, Vinje J, de Wit M, Leenen I, van der Poel W, van Duynhoven Y. Molecular epidemiology of human enteric caliciviruses in The Netherlands. J Infect Dis 2000;181 (Suppl 2):S262-9. (12.) Brugha R, Vipond IB, Evans MR, Sandifer QD, Roberts R J, Salmon RL, et al. A community outbreak of food-borne small round-structured virus gastroenteritis caused by a contaminated water supply. Epidemiol Infect 1999; 122:145-54. (13.) Kjeldsberg E, Anestad G, Greenberg H, Orstavik I, Pedersen R, Slettebo E. Norwalk virus in Norway: an outbreak of gastroenteritis studied by electron microscopy and radioimmunoassay. Scand J Infect Dis 1989;21:521-6. (14.) Lawson HW, Braun MM, Glass RI, Stine SE, Monroe SS, Atrash HK, et al. Waterborne outbreak of Norwalk virus gastroenteritis at a southwest US resort: role of geological formations in contamination of well water. Lancet 1991;337:1200-4. (15.) Kaplan JE, Feldman R, Campbell DS, Lookabaugh C, Gary GW. The frequency of a Norwalk-like pattern of illness in outbreaks of acute gastroenteritis. Am J Public Health 1982;72:1329-32. (16.) Gotz H, Ekdahl K, Lindback J, de Jong De Jong is the most common Dutch surname. Many people bear this name, including many important historical figures. Some of these people are mentioned below. De Jong may mean:
(17.) Adler JL, Zickl R. Winter vomiting disease winter vomiting disease Epidemic vomiting A 1-3 day, often parvovirus-induced intestinal 'flu' most common in the winter in temperate climates Clinical Either mild, afebrile watery diarrhea or more severe, febrile with vomiting, headache, systemic complaints . J Infect Dis 1969;119:668-73. (18). Pang XL, Honma S, Nakata S Nakata (中田 Nakata) , Vesikari T. Human caliciviruses in acute gastroenteritis of young children in the community. J Infect Dis 2000;181(Suppl 2):S288-94. (19.) Chadwick PR, Beards G, Brown D, Caul EO, Cheesbrough J, Clarke I, et al. Management of hospital outbreaks of gastro-enteritis due to small round structured viruses. J Hosp Infect 2000;45:1-10. (20.) Maunula L, Piiparinen H, von Bonsdorff CH. Confirmation of Norwalk-like virus amplicons after RT-PCR by microplate hybridization hybridization /hy·brid·iza·tion/ (hi?brid-i-za´shun) 1. crossbreeding; the act or process of producing hybrids. 2. molecular hybridization 3. and direct sequencing. J Virol Methods 1999;83:125-34. (21.) 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: 1995 and 1996. Commun Dis Public Health 1998;1:165-71. (22.) Department of Health, England and Wales. Management of outbreaks of foodborne illness. London: Her Majesty's Stationery Office; 1994. (23.) Dean AG, Dean JA, Columbier D, Burton AH, Brendel KA, Smith DC, et al. Epi Info version 6: a word processing word processing, use of a computer program or a dedicated hardware and software package to write, edit, format, and print a document. Text is most commonly entered using a keyboard similar to a typewriter's, although handwritten input (see pen-based computer) and , database, and statistics program for public health on IBM-compatible microcomputers (6.04). Atlanta: Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. ; 1998. (24.) STATA 6.0. College Station (TX): STATA Corporation; 1999. (25.) Kirkwood BR. Essentials of medical statistics. Oxford: Blackwell Science Ltd.; 1999. (26.) Lopman BA, Gallimore C, Adak GK, Reacher M, Green J, Richards AF, et al. Different populations of Norwalk-like viruses circulate in healthcare institutions and the general community. Proceedings of the XIIth International Congress of 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 . Paris: Medical and Scientific International Publisher; 2002. (27.) Mounts AW, Holman RC, Clarke MJ, Bresee JS, Glass RI. Trends in hospitalizations associated with gastroenteritis among adults in the United States, 1979-1995. Epidemiol Infect 1999;123:1-8. (28.) Vinje J, Altena SA, Koopmans MP. The incidence and genetic variability Introduction Genetic Variability
(29.) Preliminary FoodNet data on the incidence of foodborne illnesses-selected sites, United States, 2001. 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 2002;51:325-9. (30.) Green KY, Belliot G, Taylor JL, Valdesuso J, Lew JF, Kapikian AZ, et al. A predominant role for Norwalk-like viruses as agents of epidemic gastroenteritis in Maryland nursing homes for the elderly. J Infect Dis 2002;185:133-46. (31.) Jones TA, Gerber DE. Perceived etiology of foodborne illness among public health personnel. Emerg Infect Dis 2001;7:904-5. (32.) Ang LH. An outbreak of viral gastroenteritis associated with eating raw oysters raw oysters food consumed as a love potion. [Popular Folklore: Misc.] See : Aphrodisiacs . Commun Dis Public Health 1998;1:38-40. (33.) Lees D. Viruses and bivalve bivalve, aquatic mollusk of the class Pelecypoda ("hatchet-foot") or Bivalvia, with a laterally compressed body and a shell consisting of two valves, or movable pieces, hinged by an elastic ligament. 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. . Int J Food Microbiol 2000;59:81-116. (34.) Gunn RA, Janowski HT, Lieb S Lieb is a surname, and may refer to:
, Prather EC, Greenberg HB. Norwalk virus gastroenteritis following raw oyster consumption. Am J Epidemiol 1982;115:348-51. (35.) Sugieda M, Nakajima K, Nakajima S. Outbreaks of Norwalk-like virus-associated gastroenteritis traced to shellfish: coexistence co·ex·ist intr.v. co·ex·ist·ed, co·ex·ist·ing, co·ex·ists 1. To exist together, at the same time, or in the same place. 2. of two genotypes in one specimen. Epidemiol Infect 1996;116:339-46. (36.) Schreier E, Doring F, Kunkel U. Molecular epidemiology of outbreaks of gastroenteritis associated with small round structured viruses in Germany in 1997/98. Arch Virol 2000;145:443-53. Address for correspondence: Benjamin Lopman, Communicable Disease Surveillance Centre, 61 Colindale Avenue, London NW9 5EQ, United Kingdom; fax: 44-0-200-7868; e-mail:blopman@phls.org.uk Benjamin A. Lopman, * Goutam K. Adak, * Mark H. Reacher, * and David W.G. Brown * * Public Health Laboratory Service, London, United Kingdom Mr. Lopman is an epidemiologist at the Gastrointestinal Diseases Division of the Public Health Laboratory Service Communicable Disease Surveillance Centre. His work focuses on the epidemiology of viral gastroenteritis in health-care settings and coordination of epidemiologic surveillance epidemiologic surveillance The ongoing, systematic collection, analysis, and interpretation of health data essential to planning, implementing, and evaluating public health practice, closely integrated with the timely dissemination of these data to those who need to know for the Foodborne Viruses in Europe Consortium. |
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