Shiga toxin-producing Escherichia coli infections associated with hemolytic uremic syndrome, Italy, 1988-2000. (Dispatches).The mean annual incidence of 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 in persons [less than or equal to] 15 years of age in Italy from 1988 to 2000 was 0.28 per 100,000 population. Laboratory investigations showed that Shiga toxin-producing 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. (STEC STEC shiga toxin-producing Escherichia coli. ) infection occurred in 73.1% of patients. STEC O157 was the most common serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. See serovar. v. , but a considerable number of cases were from infections by non-U157 STEC. ********** Hemolytic uremic syndrome (HUS) is the most severe and specific clinical manifestation of infections with Shiga toxin Shiga toxins are a family of related toxins with two major groups, Stx1 and Stx2, whose genes are considered to be part of the genome of lambdoid prophages.[1] The toxins are named for Kiyoshi Shiga, who first described the bacterial origin of dysentery caused by (Stx)-producing Escherichia coli (STEC), especially 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. O 157:H7 and other enterohemorrhagic serotypes; the incidence of HUS represents a robust index of the total incidence of these infections in a population (1). In Italy, HUS notification is not yet mandatory, but a nationwide surveillance system was established in 1988 and has been followed on a voluntary basis with the collaboration of the Italian Society for 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. Nephrology nephrology Branch of medicine dealing with kidney function and diseases. An understanding of kidney physiology is important not only in treating kidney disease but in knowing the effect of drugs, diet, and hypertension on kidney disease, and vice versa. . Since then, the HUS surveillance system has been maintained to monitor the incidence of the disease, describe those affected, identify the STEC serotypes associated with HUS, and investigate possible risk factors associated with STEC infection. The Study The surveillance system was based on all pediatric nephrology centers that perform dialytic treatment in Italy. HUS cases were defined as patients [less than or equal to] 15 years of age with evidence of renal failure renal failure n. Acute or chronic malfunction of the kidneys resulting from any of a number of causes, including infection, trauma, toxins, hemodynamic abnormalities, and autoimmune disease, and often resulting in systemic symptoms, especially edema, , intravascular intravascular /in·tra·vas·cu·lar/ (in?trah-vas´ku-lar) within a vessel. in·tra·vas·cu·lar adj. Within one or more blood vessels. hemolysis hemolysis (hĭmŏl`ĭsĭs), destruction of red blood cells in the bloodstream. Although new red blood cells, or erythrocytes, are continuously created and old ones destroyed, an excessive rate of destruction sometimes occurs. , and thrombocytopenia Thrombocytopenia Definition Thrombocytopenia is an abnormal drop in the number of blood cells involved in forming blood clots. These cells are called platelets. (platelet count Platelet Count Definition A platelet count is a diagnostic test that determines the number of platelets in the patient's blood. Platelets, which are also called thrombocytes, are small disk-shaped blood cells produced in the bone marrow and involved in <100,000/[mm.sup.3]) (2). From May 1988 to December 2000, a total of 342 HUS cases were reported to the surveillance system. Twenty-four cases were part of two outbreaks that occurred in northern Italy Northern Italy comprises of two areas belonging to NUTS level 1:
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. ; p=0.003). We observed the highest incidence (>0.4/100,000; children [less than or equal to] 14 years of age) in the northern part of the country; the lowest incidence was reported in the insular regions, Sicily and Sardinia. The incidence was higher in children <5 years of age (mean=0.75 cases/100,000 population; range 0.33-1.10). The incidence observed in this study is the lowest among those reported in Europe for the same period (5-10). This finding, together with the rare occurrence of outbreaks (3,4), suggests that STEC infections are relatively uncommon in Italy. In northern regions, where most cattle farming takes place, the average annual incidence was similar to that of central European countries. The very low incidence observed in most regions of southern Italy and in the islands suggests that the Mediterranean basin The Mediterranean Basin refers to the lands around and surrounded by the Mediterranean Sea. In biogeography, the Mediterranean Basin refers to the lands around the Mediterranean Sea that have a Mediterranean climate, with mild, rainy winters and hot, dry summers, which is an area with a low incidence of STEC infection (10,11). Fifty-one percent of the 342 patients were boys (age range 1 month-14 years; median age 23 months). Of 11 (3.2%) patients who died, 6 were in the acute phase of HUS. Among the 274 patients for whom the clinical information was recorded, prodromal prodromal the stage of premonitory signs presaging the onset of disease or of specific clinical signs such as seizures. bloody diarrhea was reported in 48%, nonbloody diarrhea in 30%, and no diarrhea in 22%. In 21% of cases, diarrhea was reported in other household members before onset of HUS in the child. In addition, diarrhea among schoolmates was reported in 7.3% of cases. These findings suggest that person-to-person transmission may play a major role in the epidemiology of sporadic HUS cases, as described in other studies (5,12). Immediately after diagnosis of HUS, stool samples were collected from patients and household contacts when possible. Specimens were examined for the presence of free fecal Stx by the Vero cell Vero cells are lineages of cells used in cell cultures.[1] The Vero lineage was isolated from kidney epithelial cells extracted from African green monkey (Cercopithecus aethiops). assay and streaked onto MacConkey agar MacConkey (also McConkey) agar is a culture medium designed to grow Gram-negative bacteria and stain them for lactose fermentation. It contains bile salts, crystal violet dye (to inhibit Gram-positive bacteria), neutral red dye (which stains microbes fermenting lactose), for STEC isolation. Serum samples were collected after diagnosis of HUS and tested for antibodies to the lipopolysaccharide lipopolysaccharide /lipo·poly·sac·cha·ride/ (-pol?e-sak´ah-rid) 1. a molecule in which lipids and polysaccharides are linked. 2. (LPS LPS - Sets with restricted universal quantifiers. ["Logic Programming with Sets", G. Kuper, J Computer Sys Sci 41:44-64 (1990)]. ) of five major STEC serogroups (O157, 026, O103, O111, and O145) by enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. as described (3,13). Clinical specimens were collected from 249 case-patients. Stools were obtained from 228 patients and at least one serum specimen from 235 patients. The combined use of microbiologic and serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. techniques provided evidence of STEC infection in 182 (73.1%) of 249 cases examined (Table), a percentage similar to those reported in similar studies (5,7-9,14,15). We documented both microbiologic and serologic evidence of STEC infection in a considerable proportion of patients who did not have diarrhea (52.4%), although less frequently than in patients with bloody diarrhea (79.3%; chi square p=0.001) and nonbloody diarrhea (74.6%; p=0.01). A similar proportion of patients with STEC infection without diarrhea has also been described in other European studies European studies is a field of study offered by many academic colleges and universities that focuses on the current development of European integration. It basically consists of a combination of several subjects, including European history, European law, economics and sociology. (79), suggesting that Shiga toxins are able to translocate trans·lo·cate v. 1. To change from one place or one position to another; to displace. 2. To transfer a chromosomal segment to a new position; to cause to undergo translocation. across the intestinal mucosa and reach the target endothelial cells Endothelial cells The cells lining the inner walls of the blood vessels. Mentioned in: Von Willebrand Disease even if the STEC infection does not result in overt diarrhea. Despite the use of different diagnostic methods, 26.9% of patients had no evidence of STEC infection. Some patients may have had an infection caused by a STEC strain belonging to a serogroup that was not included in the LPS panel used in this study. In addition, some patients with STEC infection apparently do not have a serologic response (7). Stool examination provided evidence of STEC infection in 67 (29.4%) of 228 patients examined. Free fecal Stx was identified in stool samples from 63 (28.0%) of 225 patients examined. Most positive samples contained Stx2 alone (47 samples) or in combination with Stx1 (11 samples). Nineteen STEC strains were isolated from 18 patients (7.9%); these strains were from serogroups O157 (6 strains), O111 (4 strains), 026 (2 strains), O55 (2 strains), O86, O113, O118, O120, and undetermined O (one strain each). The proportion of STEC recovery from stools, similar to that reported in other studies (7,14), may be low because of the interval between onset of diarrhea and stool collection (median 8 days), antimicrobial therapy administered to many patients before and after the development of HUS (data not shown), or the freezing, storing, or shipping of the specimens. Antibodies to LPS were detected in the sera of 144 (61.3%) of 235 patients examined; in 115, this presence was the only evidence of STEC infection. Antibodies were detected to O157 (72 cases), 026 (31 cases), O111 (15 cases), O145 (15 cases), and O103 (8 cases). Three patients had antibodies to two serogroups: O157 and O26, O26 and O145, and O26 and O103. Serotyping of isolated STEC strains and detection of serogroup-specific LPS antibodies showed evidence of infection with STEC O 157 in 74 patients. Thirty-four patients had infection with STEC O26, 17 with STEC O111, 16 with O145, and 9 with O103. As shown in other studies, E. coli O157 was the most common STEC serogroup associated with HUS. However, >50% of STEC-positive cases had evidence of infection with non-O157 STEC. This proportion is higher than that reported in studies conducted in the United States (14), France (7), United Kingdom (6), Belgium (8), and the Netherlands (15) and suggests that the circulation of STEC O157 in Italy is lower than in other countries. The distribution of the four most frequent STEC serogroups associated with HUS cases by year is shown in the Figure. Infections with non-O157 serogroups, in particular those with E. coli 026, increased over time and since 1996 have outnumbered those with STEC O 157. Infections with STEC O111 were frequent from 1990 to 1993, after which they became rare. This observation emphasizes that the incidence of non-O157 serotypes may vary over time. [FIGURE OMITTED] The frequency of STEC O157 infection increased with age; non-O157 infections were more common in younger children. This finding is in agreement with the observation that non-O157 serotypes were the leading cause of HUS in young children in Germany (9) and could reflect differences in the epidemiology or in the pathogenic mechanism of these infections with respect to those sustained by STEC O157. For 115 STEC-positive HUS cases, we obtained stool specimens from 333 household contacts and 119 household contacts of 36 STEC-negative HUS cases. Laboratory evidence of STEC infection was found in 10 (3.3%) and in 1 (0.8%) of household contacts of STEC-positive and STEC-negative HUS cases, respectively. Two household contacts were infected with STEC strains belonging to a serogroup different from that associated with the HUS case. One of 11 STEC-positive household contacts reported diarrhea. Our findings underscore the potential for person-to-person transmission of STEC infection. Conclusions The results of this 13-year surveillance indicate that the overall incidence of HUS in Italy is lower than in other European countries, although a small but steady increase has been observed since 1994. As in most countries, STEC O157 represented the most common serotype, but a considerable proportion of cases was due to infections by non-O157 STEC, particularly O26, increasing over the last 5 years. Surveillance of HUS can provide useful information about the trend of STEC infection in the general population and represents an important means to identify STEC serotypes that are highly pathogenic to humans and may emerge as public health threats.
Table. Evidence of STEC infection in 249 Italian children with HUS,
shown by presence of prodromal diarrhea (a)
Patients with symptoms no.
positive/no, examined (%)
Evidence of STEC infection Bloody diarrhea Nonbloody diarrhea
STEC isolation 9/88 (10.2) 4/63 (6.3)
Free fecal Stx 23/86 (26.7) 21/63 (33.3)
Antibodies to LPS 61/88 (69.3) 39/63 (61.9)
Any 73/92 (79.3) 50/67 (74.6)
Patients with symptoms no.
positive/no, examined (%)
Evidence of STEC infection No diarrhea No information
STEC isolation 4/39 (10.2) 1/38 (2.6)
Free fecal Stx 10/38 (26.3) 9/38 (23.7)
Antibodies to LPS 14/41 (34.1) 30/43 (69.8)
Any 22/42 (52.4) 37/48 (77.1)
Evidence of STEC infection Total
STEC isolation 18/228 (7.9)
Free fecal Stx 63/225 (28.0)
Antibodies to LPS 144/235 (61.3)
Any 182/249 (73.1)
(a) STEC, Shiga toxin-producing Escherichia coil; HUS, hemolytic
uremic syndrome; Stx, Shiga toxin; LPS, lipopolysaccharide.
Acknowledgments We thank all parents of children for their kind cooperation during the interviews and Susanna Lana for editing the manuscript. This work was partially supported by National Research Funds code 99/01/67. References (1.) Mahon BE, Griffin PM, Mead PS, Tauxe RV. Hemolytic-uremic syndrome Hemolytic-Uremic Syndrome Definition Hemolytic-uremic syndrome (HUS) is a rare condition that affects mostly children under the age of 10, but also may affect the elderly as well as persons with other illnesses. surveillance to monitor trends in infection with Escherichia coli O157:H7 and other Shiga toxin-producing E. coli. Emerg Infect Dis 1997;3:409-12. (2.) Gianviti A, Rosmini F, Caprioli A, Corona R, Matteucci MC, Principato F, et al. Haemolytic-uraemic syndrome in childhood: surveillance and case-control studies in Italy. Pediatr Nephrol 1994;8:705-9. (3.) Caprioli A, Luzzi I, Rosmini F, Resti C, Edefonti A, Perfumo F, et al. Communitywide outbreak of hemolytic-uremic syndrome associated with non-0157 verocytotoxin-producing Escherichia coli. J Infect Dis 1994;169:208-11. (4.) Tozzi Ak, Niccolini A, Caprioli A, Luzzi I, Montini G, Zacchello G, et al. A community outbreak of haemolytic-uraemic syndrome in children occurring in a large area of northern Italy over a period of several months. Epidemiol Infect 1994; 113:209-20. (5.) Bitzan M, Ludwig K, Klemt M, Konig H, Buren J, Muller-Wiefel DE. The role of Escherichia coli O157 infections in the classical (enteropathic) haemolytic Adj. 1. haemolytic - relating to or involving or causing hemolysis; "hemolytic anemia" hemolytic uraemic U`rae´mic a. 1. (Med.) Of or pertaining to uræmia; as, uræmic convulsions s>. Adj. 1. uraemic syndrome: results of a central european, multicentre study. Epidemiol Infect 1993; 110:183-96. (6.) Milford DV, Taylor CM, Guttridge B, Hall SM, Rowe B, Kleanthous H. Haemolytic uraemic syndromes in the British Isles 1985-8: association with verocytotoxin producing Escherichia coli. Part 1: clinical and epidemiological aspects. Arch Dis Child 1990;65:716-21. (7.) Decludt B, Bouvet P, Mariani-Kurkdjian P, Grimont F, Grimont PAD, Hubert B, et al. Haemolytic uraemic syndrome and Shiga toxin-producing Escherichia coli infection in children in France. Epidemiol Infect 2000;124:215-20. (8.) Pierard D, Comu D, Proesmans W, Dediste A, Jacobs F, Van de Walle J, et al. Hemolytic uremic syndrome in Belgium: incidence and association with verocytotoxin-producing Escherichia coli infection. Clin Microbiol Infect 1999;5:1 6-22. (9.) Verweyen HM, Karch H, Allerberger F, Zimmerhackl B. Enterohemorragic E. coli in pediatric HUS: a prospective study in Germany and Austria. Infection 1999;27:341-7. (10.) Caprioli A, Tozzi Ak. Epidemiology of Shiga-toxin-producing Escherichia coli infections in continental Europe. In: Kaper JB, O'Brien A, editors. Escherichia coli O157:H7 and other Shiga-toxin-producing E. coli. Washington: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic , 1998; p. 38--48. (11.) Tozzi Ak, Gorietti S, Caprioli A. Epidemiology of human infections by Escherichia coli O157 and other verocytotoxin-producing E. coli. In: Duffy G, Garvey P, McDowell DA, editors. Verocytotoxigenic Escherichia coli. Food & Nutrition Press, Inc. 2001; p. 161-79. (12.) Rowe PC, Orrbine E, Lior H, Wells GA, McLaine PN. Diarrhoea in close contacts as a risk factor for childhood haemolytic uraemic syndrome: the CPKDRC CPKDRC Canadian Pediatric Kidney Disease Research Centre co-investigators. Epidemiol Infect 1993; 110:9-16. (13.) Caprioli A, Luzzi I, Rosmini F, Pasquini P, Cirrincione R, Gianviti A, et al. Hemolytic-uremic syndrome and verocytotoxin-producing Escherichia coli infection in Italy. J Infect Dis 1992; 166:154-8. (14.) Banatvala N, Griffin PM, Greene KD, Barrett TJ, Bibb bibb n. 1. Nautical A bracket on the mast of a ship to support the trestletrees. 2. A bibcock. [Alteration of bib.] WF, Green JH, et al. The United States national prospective hemolytic uremic syndrome study: microbiologic, serologic, clinical, and epidemiologic findings. J Infect Dis 2001; 183:1063-70. (15.) Van de Kar NCAJ, Roelofs HGR HGR Hanger HGR Hangar HGR Hand Grenade (Swedish military) HGR Hagerstown, MD, USA - Washington County Regional Airport (Airport Code) HGR Hardware and Garden Review , Muytjens HL, Tolboom JJM JJM John Jackson Miller (comic book writer) , Roth B, Proesmans W, et al. Verocytotoxin-producing Escherichia coil infection in hemolytic uremic syndrome in part or Western Europe. Eur J Pediatr 1996; 155:592-5. Address for correspondence: Dr. A.E. Tozzi, Department of 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. , Unit of Epidemiology and Biostatistics, Istituto Superiore di Sanifft, V. le R. Elena 299 00161 Roma, Italy; fax +39 06 49387292; e-mail: tozzi@iss.it Alberto E. Tozzi, * Alfredo Caprioli, * Fabio Minelli, * Alessandra Gianviti, ([dagger]) Laura De Petris, ([dagger]) Alberto Edefonti, ([double dagger]) Giovanni Montini, ([section]) Alfonso Ferretti, ([paragraph]) Tommaso De Paid, (#) Maurizio Gaido, ** Gianfranco Rizzoni, ([double dagger]) and the Hemolytic Uremic Syndrome Study Group (1) * Istituto Superiore di Sanita, Rome, Italy; ([dagger]) Ospedale Pediatrico Bambino Gesu, Rome, Italy; ([double dagger]) Pediatric Clinic "De Marchi," Italy; ([section]) University of Padua History The university was founded in 1222 when a large group of students and professors left the University of Bologna in search of more academic freedom. The first subjects to be taught were jurisprudence and theology. , Padua, Italy; ([paragraph] Santobono Hospital, Naples, Italy; (#) Giovanni XXIII Hospital, Bari, Italy; and ** Regina Margherita Hospital, Turin, Italy. (1) Members of the Hemolytic Uremic Syndrome Study Group are: A. Bettinelli, G. Capasso, A. Caringella, R. Coppo, G. Lama, S. Li Volti, S. Maffei, S. Maringhini, N. Miglietti, C. Pecoraro, I. Pela, M. Pennesi, R. Penza, L. Peratoner, F. Perfumo, I. Ratsche, E. Salvaggio, C. Setzu, and G. Zacchello. Dr. Tozzi is a pediatrician and works as an epidemiologist at the Italian National Health Institute. His interests include surveillance of infectious diseases, particularly Shiga toxin-producing Escherichia coli and hemolytic uremic syndrome in children. |
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