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1 which is a prerequisite for transmission of enteric fever.
2 th Asia still recommend fluoroquinolones for enteric fever.
3 proportion of patients with culture-negative enteric fever.
4 e optimal assay for diagnosing patients with enteric fever.
5 to the cephalosporin ceftriaxone in treating enteric fever.
6 d Salmonella enterica serovar Sendai, causes enteric fever.
7 rs causes a febrile systemic disease, termed enteric fever.
8 need to be familiar with shifting trends in enteric fever.
9 c systemic biomarkers can be detected during enteric fever.
10 omics could lead to improved diagnostics for enteric fever.
11 ehavior in individuals with recent suspected enteric fever.
12 nfections in humans which are referred to as enteric fever.
13 riably predictive of blood culture-confirmed enteric fever.
14 tive bacteria that cause gastroenteritis and enteric fever.
15 iseases ranging from mild gastroenteritis to enteric fever.
16 ed for fatal infection in the mouse model of enteric fever.
17 om mild gastroenteritis to host-disseminated enteric fever.
18 comparable to the route it takes in cases of enteric fever.
19 aratyphi), which are the causative agents of enteric fever.
20 ures and fewer relapses in culture-confirmed enteric fever.
21 r providing comprehensive protection against enteric fever.
22 ecificity of the DPPT assay for diagnosis of enteric fever.
23 accurate, and low-cost assays for diagnosing enteric fever.
24 rt for the WHO recommendations on control of enteric fever.
25 arm); 87 (26.7%) had blood culture-confirmed enteric fever.
26 can inform public health policies to prevent enteric fever.
27 tures and less relapses in culture-confirmed enteric fever.
28 and obtained blood cultures to evaluate for enteric fever.
29 a that can inform public health responses to enteric fever.
30 patients enrolled were culture-positive for enteric fever.
31 her suspected or blood culture confirmed for enteric fever.
32 highly recommended to prevent the spread of enteric fever.
33 terize disease incidence among patients with enteric fever.
34 We enrolled 2939 patients with suspected enteric fever.
35 njugate vaccine as a preventive tool against enteric fever.
36 pitals and determinants of culture-confirmed enteric fever.
37 inst widespread morbidity and mortality from enteric fever.
38 ct medical economic costs to treat a case of enteric fever.
39 ct medical economic costs to treat a case of enteric fever.
40 n areas, alongside other measures to prevent enteric fever.
46 e potential to improve clinical outcomes for enteric fever, allowing rapid diagnosis and treatment, a
47 ated a high burden of hospitalization due to enteric fever among children aged <5 years in Bangladesh
48 oth reported symptoms and clinical signs, of enteric fever among patients participating in the Survei
51 thening the existing surveillance system for enteric fever and antimicrobial resistance at the nation
53 for the rapid and culture-free diagnosis of enteric fever and non-typhoidal Salmonella bacteremia.
55 s not responsible for increased frequency of enteric fever and suggest that environmental changes may
56 ices of resources used to diagnose and treat enteric fever, and procedure frequencies received at the
57 are important for late stages of Salmonella enteric fever, and that they probably contribute to the
58 sible metabolites that can be used to detect enteric fever, and unlocks the potential of this method
59 which distinguishes malaria from sepsis and enteric fever; and the cerebral Malaria Meta-Signature,
63 e a radical reduction of the significance of enteric fever as a global public health problem in the n
67 ged 14-45 years) with criteria for suspected enteric fever (body temperature >/=38.0 degrees C for >/
69 r Typhi (S Typhi) has been the main cause of enteric fever, but now S Typhi is being displaced by inf
72 hese new estimates of the cost of illness of enteric fever can improve evaluation and modeling of the
75 to the longitudinal antibody responses among enteric fever cases and used the joint distributions of
76 laboratory data from blood culture-confirmed enteric fever cases enrolled in SEAP hospitals and assoc
80 the guidelines and training for treatment of enteric fever cases in Africa are sorely needed to help
81 timicrobial resistance (AMR) among confirmed enteric fever cases in Bangladesh, Nepal, and Pakistan.
82 through June 2019, 2243 laboratory-confirmed enteric fever cases were detected in 2 study hospitals;
83 rovisional diagnoses, but 31% (1147/3754) of enteric fever cases were not covered by initial therapy;
85 e or histopathology confirmed total 15 (11%) enteric fever cases with ileal perforation are similar t
87 We enrolled 8,705 blood culture confirmed enteric fever cases: 4,873 (56%) from Bangladesh, 1,602
88 creened 30 809 outpatients resulting in 1819 enteric fever cases; 1935 additional cases were enrolled
102 highlight illness severity and the need for enteric fever control measures, including the use of typ
103 munosorbent assay in patients with suspected enteric fever, controls with other febrile illnesses, an
105 ther explored with the aim of creating a new enteric fever diagnostic to work in conjunction with TCV
109 There is an urgency to the global control of enteric fever due to the escalating problem of antimicro
110 s from patients with blood culture-confirmed enteric fever enrolled from surveillance studies in Bang
111 etory response, whereas serotypes that cause enteric fever establish systemic infection through their
114 ver and inpatients with clinically suspected enteric fever from all 6 SEAP study hospitals were eligi
115 PT assay in distinguishing culture-confirmed enteric fever from alternative aetiologies using receive
116 mples from 5 patients with culture-confirmed enteric fever from Bangladesh in comparison to 3 healthy
117 e differentiation of Salmonella spp. causing enteric fever from nontyphoidal Salmonella is essential
119 fever; patients with blood culture-confirmed enteric fever from the hospital laboratories not capture
120 tion, the median cost of illness per case of enteric fever from the patient and caregiver perspective
121 ls in Nepal to estimate the cost per case of enteric fever from the perspectives of patients, caregiv
122 lla enterica, the causative agent of typhoid/enteric fever, from this period of transformation in Cre
123 Over the last few decades, the control of enteric fever has focused primarily on improved water an
125 roject (SEAP) data to estimate the burden of enteric fever hospitalization among children aged <15 ye
126 Salmonella Typhi contributed most to the enteric fever hospitalization incidence (277/100 000 chi
128 timate the health care-adjusted incidence of enteric fever hospitalization, and conducted univariable
129 more likely to be blood culture positive for enteric fever; however, the effect was not statistically
130 performed population-based surveillance for enteric fever in 1 urban catchment (Kathmandu) and 1 per
133 m vaccine introduction, the Surveillance for Enteric Fever in Asia Project (SEAP) conducts prospectiv
135 4 hospitals as part of the Surveillance for Enteric Fever in Asia Project (SEAP) II in Pakistan.
136 text of the population-based Surveillance of Enteric Fever in Asia Project (SEAP) in Bangladesh, Nepa
139 used a hybrid model in the Surveillance for Enteric Fever in Asia Project (SEAP) to assess incidence
141 tients participating in the Surveillance for Enteric Fever in Asia Project (SEAP), a 3-year surveilla
146 ization survey used for the Surveillance for Enteric Fever in Asia Project in Nepal, we incorporated
147 results show substantial economic burden of enteric fever in Bangladesh, with higher costs for patie
148 ritis but also cause invasive infections and enteric fever in certain hosts (young children in sub-Sa
152 paratyphi A, the second most common cause of enteric fever in Southeast Asia, is a habitant of and a
153 are the relative proportion of children with enteric fever in the age groups <5 years, 5-9 years, and
157 is critical for generating population-based enteric fever incidence estimates from facility-based su
158 sia Project (SEAP) is a prospective study of enteric fever incidence in Nepal, Bangladesh, and Pakist
162 veillance study, characterized the burden of enteric fever, including illness severity, in selected s
163 , nonmedical, and indirect costs per case of enteric fever incurred since illness onset by phone afte
171 tect amplified target cDNA in all 5 cases of enteric fever; no detectable signal was seen in the heal
172 tten by his personal physician suggests that enteric fever, not pneumonia per se, was the disorder th
173 with 120 Vietnamese patients with suspected enteric fever, of whom 89 had confirmed typhoid fever.
174 r 1029 patients with blood culture-confirmed enteric fever or with a nontraumatic terminal ileal perf
175 l studies characterizing the transmission of enteric fever organisms through sewage and water, discus
176 vironmental sampling for the surveillance of enteric fever organisms to provide data on community-lev
177 areas were based on residential addresses of enteric fever patients using study facilities; clusters
179 were collected from blood culture-confirmed enteric fever patients, blood culture-negative febrile p
180 l antibody responses were comparable between enteric fever patients, patients with blood culture-nega
181 days; inpatients with suspected or confirmed enteric fever; patients with blood culture-confirmed ent
182 as a major contributor to resistance against enteric fever, presumably through antigen presentation.
183 on and modeling of the costs and benefits of enteric fever prevention and control measures, including
186 Individual data from 2092 patients with enteric fever randomized into 4 trials in Kathmandu, Nep
192 thcare seeking for acute febrile illness and enteric fever risk in these communities, and should be i
193 op more sensitive and scalable approaches to enteric fever surveillance and generate invaluable epide
195 in Asia Project (SEAP) conducts prospective enteric fever surveillance in Bangladesh, Nepal, and Pak
196 89 S Typhi strains isolated from prospective enteric fever surveillance studies in Nepal, Bangladesh,
197 ns; however, infection of mice results in an enteric fever that resembles human typhoid fever and has
198 the only routinely used control measures for enteric fever, the assessment of novel diagnostics, new
202 y was to estimate the cost of illness due to enteric fever (typhoid and paratyphoid) at selected site
203 udy was to estimate the cost of illness from enteric fever (typhoid and paratyphoid) at selected site
204 y to assess the economic burden of pediatric enteric fever (typhoid and paratyphoid) in Bangladesh.
206 derstanding of the disease formerly known as enteric fever was transformed, offering new possibilitie
207 vestigate metabolite signals associated with enteric fever we performed two dimensional gas chromatog
208 imperfect reference standard diagnostics for enteric fever, we used Bayesian latent class models, inc
210 ical improvement and high relapse burden for enteric fever, whereas the fluoroquinolone gatifloxacin
211 rica serovar Paratyphi A is a major cause of enteric fever, with a microbiological history dating to
212 reduce the sensitivity of blood culture for enteric fever, with implications for both clinical care