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      A snap-shot of a diarrheal epidemic in Dhaka due to enterotoxigenic Escherichia coli and Vibrio cholerae O1 in 2022

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          Abstract

          Background

          Enterotoxigenic Escherichia coli (ETEC) and Vibrio cholerae O1 are most common bacterial causes of diarrheal diseases in Bangladesh. This analysis projected distribution of ETEC and V. cholerae O1 among diarrheal patients of icddr,b, Dhaka hospital in two diarrheal peaks of 2022.

          Methodology

          Under the 2% systematic surveillance system, stool samples collected from diarrheal patients of icddr,b hospital were cultured and diagnostic testing was done for ETEC and V. cholerae O1. Comparison of positive cases was done between first peak (March–April) and second peak (October–November) in 2022.

          Results

          A total of 2,937 stool specimens were tested of which 12% were ETEC and 20% were V. cholerae O1. About 40% of the severe dehydration cases were infected with V. cholerae O1. Predominant ETEC enterotoxin type was ‘LT/ST’ (41%). The LT enterotoxin significantly increased from 13% to 28% in the second peak ( p = 0.015). The predominant colonization factors (CFs) on ETEC were CS5 + CS6 (23%), followed by CS6 (15%). CF-positive isolates was significantly higher in the second peak (36%) than in the first peak (22%) ( p = 0.043). Total 14% cases were co-infected with ETEC and V. cholerae O1. Significant differences in the distribution of enterotoxin types were observed ( p = 0.029) among the co-infection cases.

          Conclusion

          Changing patterns of enterotoxin and CFs observed in ETEC pathogens should be taken into consideration for ETEC vaccine development. Considering cholera and ETEC biannual trends in causing diarrheal epidemics and outbreaks, emphasizes the need for thoughts on combination vaccine strategies for preventing acute watery diarrhea due to the two major bacterial pathogens.

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          Most cited references21

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          Susceptibility to Vibrio cholerae Infection in a Cohort of Household Contacts of Patients with Cholera in Bangladesh

          Introduction Vibrio cholerae causes a spectrum of infection in humans ranging from asymptomatic colonization to severe secretory diarrhea. V. cholerae is differentiated serologically by the O antigen of its lipopolysaccharide (LPS); the vast majority of human cholera is caused by the O1 and O139 serogroups. The O1 serogroup of V. cholerae is classified into two biotypes (classical and El Tor), and two major serotypes (Inaba and Ogawa) [1]. In the 1960s, the V. cholerae O1 El Tor biotype emerged as a major cause of cholera, ultimately replacing the classical biotype. In 1992, the V. cholerae O139 serogroup first appeared, and after briefly predominating in South Asia, now persists in this region, but at much lower levels than V. cholerae O1 El Tor. Although absent from the view of most resource-rich nations, the global impact of V. cholerae infection remains enormous. Cholera is vastly underreported, but it is estimated that there are over one million cases of cholera annually, with more than 100,000 deaths [2]. According to the WHO, there is an urgent need for cholera vaccines that provide durable protection, particularly among children less than 5 years of age in developing countries [2]. One limitation to the development of effective vaccination programs for cholera is that the factors that determine human susceptibility to V. cholerae remain poorly defined. Natural infection with V. cholerae O1 induces adaptive immune responses that are protective against subsequent disease. Volunteer studies in non-endemic settings have demonstrated that infection with classical biotype V. cholerae O1 provides 100% protection from subsequent challenge with a classical biotype strain, while infection with the El Tor biotype of V. cholerae O1 provides 90% protection from subsequent challenge with an El Tor strain. This protection lasts at least 3 years in volunteer studies [3]. In an endemic area, an initial episode of El Tor cholera reduces the risk of a second clinically apparent infection by 90% over the next several years [4]. The best-studied correlate of immunity to V. cholerae is the serum vibriocidal antibody, a complement-fixing bacteriocidal antibody. Seroepidemiologic studies in endemic areas have shown that vibriocidal antibody titers increase with age and correlate with protection from cholera [5],[6]. However, there is no threshold vibriocidal antibody titer above which complete protection from infection is achieved, and the vibriocidal antibody may be a surrogate marker for an undetermined protective immune response at the mucosal surface [7]. Although a major component of the vibriocidal antibody is directed against serotype specific LPS, levels of serum LPS-specific immunoglobulin G (IgG) antibody have not been found to correlate with protection from cholera in humans [5]. A portion of the vibriciodal antibody may also be directed against V. cholerae outer membrane proteins [8]. Antitoxin immunity is primarily directed at the B subunit of cholera toxin (CTB); however serum IgG-antibodies to CTB have not been found to correlate with protection from cholera [5], and toxin-based vaccines confer only transient protection [9]. Robust mucosal and systemic humoral responses to TcpA, the major subunit of the toxin-coregulated pilus (TCP), a type IV pilus that is required for intestinal colonization, have recently been demonstrated in patients with cholera [10], but it is unknown whether these responses are associated with protection from disease. In addition to adaptive immune responses, innate host characteristics may also influence the outcome of an individual's exposure to V. cholerae. Multiple case-control studies in cholera endemic areas have demonstrated that individuals with blood group O are at increased risk of hospitalization with cholera, and it has been hypothesized that V. cholerae infection may have selected for the low prevalence of the O blood group in the Ganges Delta region, a historic and current global epicenter of cholera [11]. Other genetic or innate immune factors may also influence susceptibility to cholera. For example, studies of duodenal biopsies obtained from patients with cholera demonstrate recruitment of neutrophils to the intestinal epithelium during acute infection [12], and also reveal increased expression of broad classes of innate immune effectors, including lactoferrin and other antibacterial proteins [13], suggesting further potential sources of genetic variability that might contribute to susceptibility to cholera. The nutritional status of the host may also affect susceptibility to diarrheal diseases such as cholera, by influencing both innate and adaptive immunity. The micronutrients zinc and vitamin A play central roles in mucosal immunity, and when given in community-based supplementation programs, may reduce the incidence and morbidity of diarrheal diseases [14]. Although zinc supplementation in children has been found to modify adaptive immune responses to V. cholerae [15],[16], there are no prior studies demonstrating a specific association between baseline nutritional characteristics and the risk of V. cholerae infection in individuals. Here, we present the results of a prospective, observational study aimed at identifying host factors that are associated with V. cholerae infection within households in a cholera-endemic setting. Our results may be relevant to the design and evaluation of more effective cholera vaccines for use in resource-poor areas of the world. Methods Study design and subject enrollment The hospital at the Clinical Research and Service Centre (CRSC) of the International Centre for Diarrhoeal Disease Research, Bangladesh (ICDDR,B) provides care for more than 100,000 patients annually, including approximately 10,000 to 20,000 with cholera, the majority of whom are residents of Dhaka city. Index cases presenting to the hospital with severe acute watery diarrhea were eligible for inclusion in this study if their stool cultures were subsequently positive for V. cholerae, if they were older than 6 months, and if they were without significant co-morbid conditions. Upon presentation of the index case, a field team discussed enrollment with household contacts of the index case, and consenting household contacts were then enrolled into the study immediately upon culture confirmation of the index case (within 24 hours of presentation of the index case). Household contacts were defined as individuals who shared the same cooking pot for three or more days. Blood specimens for ABO typing, baseline vibriocidal titers, and baseline anti-LPS, anti-CTB and anti-TcpA antibody levels were immediately collected from consenting household contacts upon enrollment. The field team visited household contacts on each of the next six days, and again on days 14 and 21. During these visits, contacts were questioned about diarrheal symptoms, and rectal swabs were obtained for V. cholerae culture. Follow-up blood samples for vibriocidal antibody titers were obtained from contacts on study days 7 and 21. All patients designated as having completed follow-up had serum successfully obtained at baseline and day 21, and 98% of the interim field visits resulted in collection of clinical data and rectal swabs. Household contacts were excluded from the analysis if they did not complete 21 days of follow-up. Household contacts were also independently excluded from the analysis of their baseline immunologic characteristics if they had symptoms of diarrhea during the week preceding enrollment, if they had a positive rectal swab culture for V. cholerae on enrollment into the study, or if they developed infection with V. cholerae of a serogroup or serotype that did not correspond to that of the index case. Informed consent for participation in this research was obtained from participants or their guardians. The human experimentation guidelines of the U.S. Department of Health and Human Services were followed in the conduct of this research. Approval for this human study was obtained from the Institutional Review Board of the Massachusetts General Hospital and the Research and the Ethical Review Committees of the ICDDR,B. Confirmation of bacterial strains All index cases of cholera were confirmed by culturing stool for V. cholerae on taurocholate-tellurite-gelatin agar (TTGA). After overnight incubation of plates, serological confirmation of suspected V. cholerae colonies was carried out by slide agglutination [17],[18]. Rectal swab specimens from household contacts were collected in Cary-Blair transport media for subsequent plating on TTGA and colony identification as above. V. cholerae was the only pathogen for which microbiologic screening was carried out during the 21 day follow-up period. Immunologic and other laboratory assays Vibriocidal antibody assays were performed with methodology previously described, using guinea pig complement and the homologous serogroup/type of V. cholerae O1 El Tor Ogawa (strain 25049), V. cholerae O1 El Tor Inaba (strain T-19479), or V. cholerae O139 (strain 4260B) [19]. Heat-inactivated serum was diluted 5-fold, and serial 2 fold dilutions were assayed, with the vibriocidal titer defined as the reciprocal of the highest serum dilution resulting in greater than 50% reduction of the O.D. 600 when compared to control wells without serum. Positive and negative control sera from infected and non-infected individuals were used to ensure consistency across plates. The concentrations of complement and bacteria have been separately optimized for determining the vibriocidal antibody responses to V. cholerae O1 and V. cholerae O139 [19]. Serum and fecal antibodies specific to CTB, LPS, and TcpA were measured by kinetic ELISAs using methods described previously [10],[20]. 96-well microtiter plates were coated with either purified LPS (250 ng/well), sequentially with GM1 ganglioside (100 ng/well) followed by recombinant CTB (50 ng/well) (gifts of A.M. Svennerholm), or with recombinant TcpA (150 ng/well) [10]. Serogroup/type-specific LPS was derived from the same strains used in the vibriocidal assay by hot-phenol extraction, followed by proteinase, DNAse and RNAse treatment. Plates were incubated with diluted patient sera (1∶50 for LPS ELISA, 1∶100 for TCP, and 1∶200 for CTB), washed, and horseradish peroxidase-conjugated secondary antibodies to either human IgG or IgA were applied (Jackson Laboratories, Bar Harbor, Maine). Plates were developed using 0.1% ortho-phenylene diamine (Sigma, St. Louis, Missouri) in 0.1 M sodium citrate buffer with 0.1% hydrogen peroxide, and optical densities (OD) were read kinetically at 450 nm for 5 minutes at 19-s intervals. ELISA data were normalized across plates using control serum derived from previously infected patients. Antigen specific-IgA in fecal extracts were expressed as a fraction of total IgA in fecal extracts, which was determined by ELISA using an IgA standard (1 mg/ml) derived from human colostrum, as described previously [20]. Serum retinol levels were assayed by high-performance liquid chromatography, and serum zinc levels were assayed by atomic absorption spectrophotometer [16]. Definition of outcomes in household contacts Among household contacts, definite V. cholerae infection was defined as a positive rectal swab culture for V. cholerae during the 21 days of follow-up. Possible infection was defined as a four-fold or greater change in the serum vibriocidal antibody titer and/or the development of diarrheal symptoms in the absence of detection of V. cholerae in serial rectal swab cultures. The absence of infection was defined as no positive culture for V. cholerae, no significant changes in vibriocidal antibody titer, and no symptoms of diarrhea. Symptomatic V. cholerae infection was defined as a positive culture that occurred in association with diarrheal symptoms (3 or more loose stools per day) within 72 hours of developing the positive culture, and asymptomatic infection was defined as a positive culture in the absence of diarrheal symptoms. Statistical analyses Analyses were performed using Stata version 9.0 (Stata Corporation, Inc., College Station, Texas), and SAS version 9.1 (SAS Institute Inc, Cary, North Carolina). Characteristics of the definitely infected household contacts were compared with characteristics of the contacts with no evidence of infection with logistic regression using generalized estimating equations, with an exchangeable correlation matrix, and the reported odds ratios and p values were adjusted for clustering based on household [21]. A multivariate analysis of baseline immunologic characteristics, including age, vibriocidal antibody, and serum anti-CTB, LPS, and TCP IgG and IgA antibodies, was performed with a logistic regression model clustered by household using generalized estimating equations, with the final model determined based on forward selection with a predetermined cutoff criteria of p≤0.05 for inclusion in the model. Odds ratios (OR) are reported in the text and tables with 95% confidence intervals (CI), and all reported p values are two-tailed. Results Description of the cohort of household contacts A total of 1077 household contacts of 396 index patients with cholera were enrolled in the study between January 2001 and May 2006. 944 contacts completed 21 days of observation. Of the household contacts that completed follow-up, there were 782 contacts of 304 index patients with cholera due to V. cholerae O1, and 162 contacts of 57 index patients with V. cholerae O139. Outcomes were defined by whether the household contacts developed diarrhea, had a four-fold change in vibriocidal antibody titer, or had a positive rectal swab for V. cholerae and are shown in Table 1. Of the 944 contacts that completed the observation period, 202 developed definite V. cholerae infection, defined as a positive rectal swab culture (21%), and of those, 127 (62%) developed diarrhea within 72 hours of their positive culture. 10.1371/journal.pntd.0000221.t001 Table 1 Outcomes in 944 Household Contacts Completing 21 Days of Follow-up Category Number of Contacts Positive rectal swab culture 4-fold increase in vibriocidal Symptomatic (diarrhea) Definite Infectiona N = 202 Symptomatic 88 Yes Yes Yes 39 Yes No Yes Asymptomatic 38 Yes Yes No 37 Yes No No Possible Infection N = 320 39 No Yes Yes 48 No Yes No 233 No No Yes No evidence of Infectiona N = 422 422 No No No a Our primary analysis compared household contacts with definite infection, defined a positive rectal swab culture during the 21 days of follow-up, with those with no evidence of infection. As described above, an additional subset of 229 of the 944 household contacts that completed the 21 days of observation were excluded from the analysis of baseline immunologic characteristics; this included 206 contacts who had diarrhea the week prior to enrollment or a positive rectal swab upon enrollment, and 23 contacts who developed infection with a V. cholerae serotype/group that did not match the index case. None of the household contacts required hospitalization or intravenous hydration, although symptomatic individuals were treated promptly with antibiotics and home oral rehydration therapy as needed. Age, gender and probability of infection with V. cholerae Among household contacts of index cases infected with V. cholerae O1, age was inversely related to the probability of developing infection (p<0.001; Figure 1). In contrast, no significant association between age and the probability of infection with V. cholerae O139 was found (p = 0.6). 10.1371/journal.pntd.0000221.g001 Figure 1 The total proportion of household contacts with definite V. cholerae infection by age group. The red-hatched area indicates those with symptomatic infection, the blue-hatched area indicates those with asymptomatic infection. The associated curves represent the predicted likelihood of developing infection by age based on logistic regression modeling. Figure 1A shows the likelihood of V. cholerae O1 infection by age bound in deciles (P for predicted model <0.0001). 1B shows the likelihood of developing V. cholerae O139 infection according to age bound in quintiles (P for predicted model = 0.6). The household contacts with the highest risk of V. cholerae O1 infection were young children. In children 5 years of age or younger, the odds of developing infection with V. cholerae O1 were 2.7 times that of older individuals (P<0.001, 95% CI 1.61–4.49). Children 5 years or younger also had a higher likelihood of developing symptomatic illness if infected with either serogroup (OR = 2.7, P = 0.03, 95% CI 1.10–7.43). No association between gender and susceptibility to infection with V. cholerae of either serogroup was found. Immunologic markers and probability of infection with V. cholerae We assessed the association between a number of baseline immunologic markers and risk of V. cholerae infection in this cohort of household contacts. Associations between serologic markers and the risk of infection are listed in Table 2. As described previously, baseline vibriocidal antibody titer predicted protection from subsequent infection with V. cholerae O1 (OR 0.82 for each doubling of titer, 95% CI 0.74–0.92) but not from V. cholerae O139 (OR 0.97, 95% CI 0.82–1.15) [7]. However, the baseline vibriocidal titer did not predict the risk of developing symptomatic illness among those who were infected with V. cholerae O1 (OR 0.90, 95% CI 0.75–1.07). 10.1371/journal.pntd.0000221.t002 Table 2 Immunologic correlates of protection from infection with V. cholerae in household contacts Immunologic Marker Serogroup Mean Baseline Antibody Levels (±SE) a Crude Odds of V. cholerae infection per doublingb P 95% CI Infected Not-infected N = 94 N = 383 Vibriocidal All 5.1 (±0.31) 6.6 (±0.15) 0.84 <0.001 0.77 0.93 O1 5.7 (±0.36) 7.1 (±0.14) 0.82 0.001 0.74 0.92 O139 3.6 (±0.42) 3.8 (±0.32) 0.97 0.7 (NS) 0.82 1.15 CTB-IgA All 3.5 (±0.14) 4.1 (±0.07) 0.74 0.002 0.60 0.90 O1 3.5 (±0.16) 4.1 (±0.08) 0.74 0.003 0.60 0.90 O139 3.4 (±0.33) 4.2 (±0.19) 0.74 0.15 (NS) 0.49 1.12 LPS-IgA All 3.8 (±0.15) 4.2 (±0.06) 0.76 0.009 0.62 0.93 O1 3.6 (±0.19) 4.2 (±0.07) 0.70 0.007 0.54 0.91 O139 4.3 (±0.16) 4.4 (±0.15) 0.91 0.6 (NS) 0.62 1.34 TcpA-IgA All 3.6 (±0.10) 4.0 (±0.06) 0.65 0.002 0.49 0.85 O1 3.5 (±0.15) 3.9 (±0.06) 0.65 0.015 0.46 0.92 O139 3.8 (±0.10) 4.2 (±0.10) 0.58 0.038 0.34 0.97 CTB-IgG All 6.2 (±0.11) 6.4 (±0.06) 0.84 0.24 (NS) 0.64 1.12 O1 6.5 (±0.11) 6.6 (±0.06) 0.93 0.56 (NS) 0.73 1.18 O139 6.1 (±0.29) 6.6 (±0.13) 0.77 0.20 (NS) 0.37 1.23 LPS-IgG All 6.1 (±0.10 ) 6.2 (±0.05) 0.88 0.30 (NS) 0.68 1.12 O1 6.1 (±0.13) 6.2 (±0.05) 0.88 0.35 (NS) 0.66 1.16 O139 6.2 (±0.19) 6.3 (±0.11) 0.83 0.52 (NS) 0.46 1.48 TcpA-IgG All 5.3 (±0.08) 5.4 (±0.04) 1.07 0.65 (NS) 0.80 1.40 O1 5.3 (±0.10) 5.4 (±0.04) 1.05 0.75 (NS) 0.76 1.47 O139 5.2 (±0.10) 5.4 (±0.08) 0.74 0.48 (NS) 0.31 1.72 a Baseline measurements are shown as log2 transformed antibody titer (vibriocidal) or relative kinetic ELISA values. The standard error of each mean is noted in parentheses. b Adjusted only for clustering by household. A novel finding in our study was that V. cholerae antigen-specific serum IgA levels predicted an individual's susceptibility to V. cholerae infection. As with the vibriocidal antibody, higher serum levels of LPS-specific IgA were associated with protection from infection with V. cholerae O1, but not with V. cholerae O139. CTB-specific serum IgA levels were associated with protection from infection with both the O1 and O139 serogroups (the ORs were equivalent), but this finding only reached statistical significance for V. cholerae O1 infection. TcpA-specific IgA levels were associated with significant protection against both O1 and O139 serogroups. In contrast with serum IgA results, there were no associations between serum LPS, CTB, or TcpA-specific IgG and outcomes in household contacts. In a smaller subset of our cohort of household contacts, we also evaluated CTB and LPS- specific IgA levels in fecal extracts. This analysis included 282 contacts that completed 21 days of follow-up prior to June 2002. Fecal levels of antigen specific IgA were not significantly correlated with serum IgA levels to the same antigen. Levels of fecal CTB IgA were not significantly associated with the risk of infection with V. cholerae, or with the risk of diarrhea in infected individuals. However, higher levels of LPS-specific antibodies in feces at baseline were significantly associated with a lower likelihood of developing symptomatic disease in individuals infected with V. cholerae O1 (OR 0.58 per two-fold increase, p = 0.027, 95% CI 0.36–0.94). To explore potential confounding between immunologic markers that were associated with protection from infection with V. cholerae O1 in the univariate analysis, we performed a stepwise, multivariate logistic regression analysis using generalized estimating equations. In the final model derived, three variables – age, baseline vibriocidal titer, and baseline serum CTB-IgA titer – were significant independent predictors of susceptibility to infection with V. cholerae O1 (Table 3). Serum anti-TcpA and anti-LPS IgA antibodies were more highly correlated with the vibriocidal antibody (Spearman's rank correlation coefficient, ρ = 0.20, P = 0.004, and ρ = 0.35, P<0.0001, respectively for TcpA and LPS) and than were anti-CTB-IgA antibodies (ρ = 0.06, P = 0.23), and anti-TcpA and anti-LPS IgA antibody levels were not predictive of susceptibility to V. cholerae O1 independently of the vibriocidal antibody titer. 10.1371/journal.pntd.0000221.t003 Table 3 A multivariate logistic regression model of predictors of protection from infection with V. cholerae O1 El Tor in household contacts Variable Adjusted OR 95% CI P Age 0.98a 0.97 1.00 0.02 Vibriocidal 0.86b 0.77 0.96 0.007 CTB-IgA 0.79b 0.66 0.95 0.01 a Per year of increasing age. b Per each doubling of antibody titer. Because baseline TCP-IgA was the only significant predictor of susceptibility to V. cholerae O139 and there were a smaller number of observations, a separate multivariate assessment was not feasible for the O139 serogroup. Nutritional markers and probability of infection with V. cholerae We evaluated the association between anthropometric markers of nutritional status and susceptibility to infection with V. cholerae in children younger than 5 years of age. Height- and weight-for-age were not significantly associated with likelihood of V. cholerae infection or symptomatic disease in young children exposed in the household (Table 4). 10.1371/journal.pntd.0000221.t004 Table 4 Other non-immunologic predictors of susceptibility to infection with V. cholerae O1 El Tor in household contacts Characteristic Crude Odds Ratio of V. cholerae O1 infection P 95% CI Significant predictors Retinol Deficient 2.36 0.05 1.00 5.53  Blood Group O 0.54 0.005 0.35 0.83 First Degree Relative of Casea 2.90 0.03 1.12 7.52 Non-predictive Zinc Deficient 1.02 0.97 0.28 3.7 Height for Age (Z) 0.88 0.30 0.68 1.12 Weight for Age (Z) 0.78 0.30 0.50 1.24 Weight for Height (Z) 0.88 0.66 0.49 1.57 a Compared to household contacts that were not first degree relatives. To explore the relationship between micronutrient levels and susceptibility to cholera, we also evaluated baseline zinc and retinol levels in a subset of 278 household contacts (including a total of 55 retinol and 129 zinc deficient individuals). Our evaluation was restricted to contacts of patients with V. cholerae O1. Zinc deficiency (defined at serum zinc ≤70 µg/dL [22]) was not significantly associated with likelihood of infection with V. cholerae O1 or with development of diarrhea. Retinol deficiency (defined as serum retinol ≤20 µg/dL [22]) was associated with a higher risk of infection with V. cholerae O1 (Table 4). Furthermore, retinol deficiency was associated with a higher likelihood of developing symptomatic disease if infected: all 9 of the retinol deficient individuals infected with V. cholerae O1 developed symptomatic disease, while only 14 of the 27 retinol replete infected individuals developed symptomatic infection (P = 0.05). Genetic factors Consistent with what was previously described in a earlier subset of the current cohort [23], we found that individuals with blood group O were less likely to become infected with V. cholerae O1 than non-blood group O individuals (OR 0.54, 95% CI 0.35–0.83, Table 4), but if infected, had greater than twice the odds of developing symptomatic infection (OR 2.13, P = 0.035, 95% CI 1.05–4.33). There was no significant difference in the susceptibility of individuals with blood group O to infection with V. cholerae O139, although individuals with blood group O were more likely to develop symptomatic disease if infected with either serogroup. Because we hypothesized that additional host genetic factors might contribute to susceptibility to cholera, we collected pedigree data on a subset of the households enrolled in the study (beginning in 2003). A total of 259 household contacts that completed 21 days of follow-up were classified based on relatedness to the index case. The analysis included 197 first-degree relatives (i.e. siblings, parents or children) of the index case, and 62 non-first degree relatives. Among this population, individuals who were first-degree relatives of the index case had significantly greater odds of being infected with V. cholerae compared to non-related or less closely related contacts in the same household (OR [crude] 2.90, P = 0.03, 95% CI 1.12–7.52, Table 4). This finding was independent of blood group phenotype and age in a multivariate analysis (OR [adjusted] 2.91, P = 0.03, 95% CI 1.11–7.61). Microbiologic and environmental factors Household contacts of index patients infected with V. cholerae O139 were more likely to become infected than contacts of patients with V. cholerae O1 (OR 1.67, p = 0.015, 95% CI 1.10–2.52). There was no difference in the likelihood of infection between contacts of index patients infected with Inaba (N = 466) versus the Ogawa (N = 366) serotypes of V. cholerae O1 (OR 0.95, p = 0.86, 95%% CI 0.60–1.53). In addition to intrinsic host and microbiologic characteristics, other environmental factors might influence the outcome of exposure to V. cholerae within a household. We found that attack rates were markedly higher in individuals living in households that included more than one infected individual (OR 5.50, P<0.001, 95% CI 3.18–9.51). This finding was independent of baseline vibriocidal antibody titers of household contacts, suggesting that variability in risk of infection in households may be due to a common environmental risk and/or common genetic factors influencing household susceptibility. Discussion An improved understanding of factors that influence host susceptibility to cholera may aid in the development and implementation of an effective vaccination program. In this study, we identified novel immunologic markers that predict protection from V. cholerae infection in a population in Bangladesh, as well as other host characteristics that modify susceptibility. The vibriocidal antibody is the only previously described marker of immunity to cholera and is routinely utilized in pilot studies of vaccine efficacy. Here, we show that levels of serum IgA specific to three V. cholerae antigens – CTB, LPS and TcpA – also predict protection among household contacts of patients infected with V. cholerae O1 El Tor, the current predominant cause of cholera. Interestingly, levels of serum IgG directed against these same antigens did not predict protection, possibly because serum IgA levels better reflect protective immune responses at the intestinal mucosal surface where secretory IgA (sIgA) is the predominant immunoglobulin. We also examined baseline fecal levels of V. cholerae antigen specific IgA, although there was no significant correlation of these with baseline serum IgA antibodies to the same antigen. Antigen-specific fecal IgA levels did not correlate with protection from cholera, except for a mild effect of fecal IgA specific to LPS. This might reflect proteolysis of IgA in fecal samples, such that baseline fecal IgA measurement may not adequately represent an accurate level of the response to V. cholerae antigens at the mucosal level. Among the antigens evaluated, responses to TcpA appear to be unique in that they are associated with protection from both the O1 and O139 serogroups. Expression of tcpA mRNA is highly up-regulated in V. cholerae during human infection [24], yet it remains uncertain to what extent this antigen is present in current killed and live-oral cholera vaccines. A systematic comparison of TcpA responses in naturally-infected individuals compared to vaccine recipients would be important to address this question. Our data suggest that inclusion of TcpA as a vaccine component may be useful in boosting protective immunity across both serogroups. Studies in the rabbit ileal loop model of cholera suggest that anti-toxin and anti-LPS immune responses are synergistic in the prevention of fluid accumulation [25]. In concordance with this observation, our multivariate analysis showed that both anti-toxin (anti-CTB) and anti-bacterial (vibriocidal antibody) responses were independent predictors of susceptibility to cholera. This finding is also consistent with the results of clinical trials of the whole cell-B subunit vaccine, which suggest a role for anti-CTB responses in conferring additional short term protection compared with whole cell vaccine alone [9]. Our multivariate model also indicated that increasing age predicted immunity from cholera, independent of both anti-CTB IgA and vibriocidal antibody levels, suggesting that additional components of protective immunity remain unidentified. In addition to adaptive immune responses, we identified other host and environmental characteristics that affected the risk of developing cholera in our study population. Although an association between blood group phenotype and severity of cholera has previously been recognized, we observed an additional familial segregation of susceptibility to cholera within households. In particular, first-degree relatives of cholera patients were significantly more likely to develop infection with V. cholerae than less closely related members living in the same household, and this was independent of blood group. Such increased susceptibility might be related to closer contact or shared behaviors between first degree relatives, or could reflect additional genetic components of susceptibility to cholera. We found direct evidence to support the importance of nutrition in susceptibility to infection with V. cholerae. Increasing levels of retinol, but not zinc, were associated with decreased susceptibility to both infection and symptomatic disease. This observation underscores the importance of retinol supplementation in young children in developing countries where cholera is endemic. Our study has a number of limitations. Although we demonstrated that cholera antigen-specific serum IgA levels correlate with protection from infection with V. cholerae, it is possible that these immunologic markers, like the vibriocidal antibody, are surrogates for protective immune responses localized at the mucosal surface. Thus, the inability to measure intestinal levels of sIgA using non-invasive techniques remains a major limitation and necessitates the discovery of better proxy measurements of mucosal immunity. It is also possible that a portion of household contacts in our study were infected prior to onset of symptoms of the recognized household index case. We accounted for this by excluding from assessment of baseline immunologic characteristics those contacts reporting diarrhea in the week prior to enrollment or having a positive rectal swab upon entry into the study. Taken together, our data suggest that immunologic, genetic, and nutritional characteristics of individuals all contribute to human susceptibility to infection with V. cholerae in a household. Although it is hypothesized that immune responses at the mucosal surface are the primary mediators of protection from V. cholerae, the specific antigens to which these responses are directed have not been identified. Our observation that levels of serum IgA (but not serum IgG) directed at certain V. cholerae antigens are associated with protection from infection underscores the need to better understand anti-V. cholerae immunity at the mucosal surface. Such understanding would be critical in designing and evaluating improved vaccines against V. cholerae.
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            Enterotoxigenic Escherichia coli in developing countries: epidemiology, microbiology, clinical features, treatment, and prevention.

            ETEC is an underrecognized but extremely important cause of diarrhea in the developing world where there is inadequate clean water and poor sanitation. It is the most frequent bacterial cause of diarrhea in children and adults living in these areas and also the most common cause of traveler's diarrhea. ETEC diarrhea is most frequently seen in children, suggesting that a protective immune response occurs with age. The pathogenesis of ETEC-induced diarrhea is similar to that of cholera and includes the production of enterotoxins and colonization factors. The clinical symptoms of ETEC infection can range from mild diarrhea to a severe cholera-like syndrome. The effective treatment of ETEC diarrhea by rehydration is similar to treatment for cholera, but antibiotics are not used routinely for treatment except in traveler's diarrhea. The frequency and characterization of ETEC on a worldwide scale are inadequate because of the difficulty in recognizing the organisms; no simple diagnostic tests are presently available. Protection strategies, as for other enteric infections, include improvements in hygiene and development of effective vaccines. Increases in antimicrobial resistance will dictate the drugs used for the treatment of traveler's diarrhea. Efforts need to be made to improve our understanding of the worldwide importance of ETEC.
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              Disease burden due to enterotoxigenic Escherichia coli in the first 2 years of life in an urban community in Bangladesh.

              A cohort of 321 children was followed from birth up to 2 years of age to determine the incidence of enterotoxigenic Escherichia coli (ETEC) in Bangladesh. The average number of diarrheal days and incidence rates were 6.6 and 2.3/child/year, respectively. ETEC was the most common pathogen and was isolated in 19.5% cases, with an incidence of 0.5 episode/child/year. The prevalence of rotavirus diarrhea was lower (10%). ETEC expressing the heat-stable enterotoxin (ST) was predominant. Strains isolated from diarrheal cases were positive for colonization factors (CFs) in higher frequency (66%) than from healthy children (33%) (P < 0.001). The heat-labile toxin (LT)-positive strains from healthy children were more often CF negative (92%) than those isolated from children with diarrhea (73%) (P < 0.001). In children with symptomatic or asymptomatic infections by CFA/I, CS1 plus CS3, CS2 plus CS3, or CS5 plus CS6 strains, a repeat episode of diarrhea or infection by the homologous CF type was uncommon. Repeat symptomatic infections were noted mostly for LT- and ST-expressing ETEC. ETEC diarrhea was more prevalent in children in the A and AB groups than in those in the O blood group (P = 0.032 to 0.023). Children with ETEC diarrhea were underweight and growth stunted at the 2-year follow-up period, showing the importance of strategies to prevent and decrease ETEC diarrheal morbidity in children.
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                Author and article information

                Contributors
                Journal
                Front Public Health
                Front Public Health
                Front. Public Health
                Frontiers in Public Health
                Frontiers Media S.A.
                2296-2565
                14 April 2023
                2023
                : 11
                : 1132927
                Affiliations
                [1] 1International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b) , Dhaka, Bangladesh
                [2] 2Directorate General of Health Services , Dhaka, Bangladesh
                Author notes

                Edited by: Teresa Estrada-Garcia, National Polytechnic Institute of Mexico (CINVESTAV), Mexico

                Reviewed by: Mateusz Hasso-Agopsowicz, World Health Organization, Switzerland; Arindam Mitra, Adamas University, India

                *Correspondence: Firdausi Qadri, fqadri@ 123456icddrb.org

                These authors share senior authorship

                This article was submitted to Infectious Diseases: Epidemiology and Prevention, a section of the journal Frontiers in Public Health

                Article
                10.3389/fpubh.2023.1132927
                10140589
                badc2eae-1bed-4bbd-82a4-247c58b1481a
                Copyright © 2023 Tauheed, Ahmed, Akter, Firoj, Ahmmed, Rahman, Afrad, Islam, Rahman, Khan, Alam, Bhuiyan, Chowdhury and Qadri.

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                : 28 December 2022
                : 24 March 2023
                Page count
                Figures: 2, Tables: 2, Equations: 0, References: 26, Pages: 7, Words: 5445
                Categories
                Public Health
                Brief Research Report

                etec,cholera,co-infection,enterotoxin,colonization factor,seasonal peak,bangladesh

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