Value of a Single-Tube Widal Test in Diagnosis of Typhoid Fever in Vietnam

RESULTS

The median (95% confidence interval [range]) age of the patients was significantly lower in the typhoid fever group, 17 (4 to 38 [1 to 68]) years, than in the control group, 23 (6 to 70 [1 to 90]) years (P < 0.001) . The Widal titers for the four groups of patients are shown in Table 1. The detailed Widal test results for the febrile control patients are shown in Table 2. The cases (group 1) and controls (group 3 and 4) were subdivided into children (<15 years old) and adults (≥15 years old), and the sensitivity and specificity at various cutoff values were calculated (Table3). The test was more sensitive for children than for adults at each cutoff for both O and H antigens but was less specific at O- and H-antigen titers of 100. In adults, the sensitivity for both O and H antigens increased with the duration of illness before admission (P, 0.01) . This finding was not seen in children. There was no significant relationship between the Widal test results and a history of prior antibiotic therapy.

Examination of the microbiology laboratory records showed that 154 of 500 (30.8%; 95% confidence interval, 26.8 to 35.1%) consecutive patients admitted to the hospital and investigated with a blood culture and a Widal test had a blood culture positive for S. typhi. The positive predictive and negative predictive values for the O- and H-antigen titers were calculated for a disease prevalence of 30% with different cutoff values (Table 3).

DISCUSSION

The specific purpose of this study was to develop local recommendations for the interpretation of Widal test results. However, the results have implications for other regions where typhoid is endemic. Although the Widal test is widely used in Vietnam to diagnose typhoid fever, no previous study has been designed to evaluate its usefulness. There are various difficulties associated with an evaluation of the Widal test. First, the levels of agglutinins detectable in the noninfected populations of different areas vary considerably (12, 15, 17, 19-21, 23). This variation depends on the degree to which the disease is endemic in each area, a fact which may change over time, as has occurred in Papua New Guinea (4). It also depends on the level of infection due to other salmonellae with cross-reacting antigens. It is therefore critical to evaluate the Widal test in the area in which it is to be used. A second issue is the choice of a satisfactory gold standard for diagnosis and the selection of an adequate control group. In this study, we have chosen blood culture-positive patients as the confirmed typhoid fever cases. However, some patients with typhoid fever will be blood culture negative, particularly in areas such as Vietnam, where antibiotic pretreatment is common. Bone marrow culturing would be a better gold standard (10), but this test is not routinely performed at the CTD. The ideal control group would be patients with an illness compatible with typhoid fever and investigated with a Widal test but who are then found not to have typhoid fever. However, it can be difficult to choose patients who are blood culture negative and who definitely do not have typhoid fever. Septicemia, malaria, and dengue are common causes of admission with fever at the CTD, and each may be confused with typhoid fever but may be diagnosed following investigation (9): malaria with a positive smear and a negative blood culture; dengue with a compatible clinical history, recovery without antibiotics, a negative blood culture, and a positive dengue serological test (25); and septicemia by the isolation of an organism other than S. typhi from the blood. We have used a group of adults and children with tetanus to indicate the levels of agglutinating antibodies in the population as a whole.

This study confirms the presence of detectable agglutinins in a hospital-based population without typhoid fever. O agglutinins were present at a titer of ≥100 in 7% and H agglutinins were present at a titer of ≥100 in 1% of 265 adults and children with tetanus. The levels of agglutinins are similar to those found in other studies in this region (4, 13, 15, 16, 21). Pang and Puthucheary, for example, found O agglutinins at a titer of 160 or more in 5% and H agglutinins at a titer of 160 or more in 2% of 300 noninfected individuals in Malaysia (15).

Salmonellae are divided into serological groups on the basis of O or somatic antigens. Group D organisms, including S. typhi, possess O-antigen 9. Fifty-nine of the 78 group D organisms, includingS. typhi, and group A and B organisms, such as S. paratyphi A, also have antigen 12. Other salmonellae share the H, flagellar, and antigen d with S. typhi. Cross-reactions, producing a false-positive O-antigen titer in the Widal test, can therefore occur with any of these serotypes (16, 18). Paratyphoid fever due to S. paratyphi A resulted in a positive O-antigen titer of ≥100 in 53% of patients and a positive H-antigen titer of ≥100 in 22%. However, a positive Widal test for these patients would still have resulted in appropriate management. There is evidence that the proportion of disease, both bacteremia and gastroenteritis, due to other Salmonellaserotypes is low in this area (9). In this series, only 10 (0.7%) of the 1,455 salmonellae isolated from the blood cultures were nonenteric fever salmonellae. The level of stimulation of the immune system by other salmonellae with shared antigens may therefore also be low. Previous typhoid vaccination may contribute to elevated agglutinins in the noninfected population. However, such vaccination is not a factor in the population that we studied. There is no national program of typhoid vaccination in Vietnam, typhoid vaccine is not generally available, and it is extremely rare for patients to have a history of typhoid vaccination.

The earliest serological response in acute typhoid fever is a rise in the titer of the O antibody, with an elevation of the H-antibody titer developing more slowly but persisting longer than that of the O-antibody cutoff titer (1). In this study, 17% of patients with blood culture-positive typhoid fever had no detectable O antibodies at a cutoff titer of 100, and 33% had no detectable H antibodies at a cutoff titer of 100. Although these patients may have had antibodies at a lower titer, it is well recognized that patients with confirmed typhoid fever may have a negative Widal test throughout the course of their illness, although the proportion has varied in different reports (2, 5, 15, 19, 23, 24). This lack of antibody response among patients with blood culture-positive typhoid fever has been attributed to undefined host or bacterial factors or prior antibiotic treatment (20). In this study, there was no relationship between a history of prior antibiotic treatment and the Widal test results. Some patients were investigated in the first week of the disease, and this early investigation might be thought to have contributed to the proportion of patients with negative results (11, 24). However, the traditional view that the test becomes positive only in the second week of the illness is not supported by our data. The test was positive (titer to O and/or H antigen of ≥100) in 90% of patients with blood culture-positive typhoid fever and admitted during the first week of their illness. This result may reflect a population immunologically sensitized by regular subclinical exposure to S. typhi.

The level of agglutinins was correlated with age, with a higher level of agglutinins in children than in adults, as others have observed (12). Although the titer increased with the duration of illness in adults, it did not do so in children. These differences may reflect different proportions of IgM and IgG antibodies to S. typhi antigens at different ages.

False-positive Widal test results have been reported for patients with nonenteric fever salmonellae infections, malaria, typhus, C. neoformans meningitis, immunological disorders, and chronic liver disease (8, 15, 21, 22). In this study, elevated levels of agglutinins were found in patients with a variety of other bacteremic illnesses, including those caused by other Salmonella spp.,E. coli, Klebsiella spp., and S. aureus. In general, the level of O antibodies in these patients was higher than that of H antibodies. The elevated levels may have been due to cross-reacting antigens or an anamnestic response. There are more than 40 cross-reacting antigens between S. typhi and other Enterobacteriaceae (6). The levels of agglutinins were low in adults with malaria and in children with dengue.

Some authors have claimed that the level of H agglutinins is unhelpful in the diagnosis of typhoid, maintaining that the H-agglutinin titer remains elevated for a longer period than the O-agglutinin titer after an episode of typhoid fever and also may rise as a nonspecific response to other infections (11, 20). Others, however, have proposed that the H-agglutinin titer is as useful as or more useful than the O-agglutinin titer (2, 5, 15, 23). In this study, H agglutinins were less sensitive but more specific than O agglutinins and yielded better positive predictive values.

The predictive value of a diagnostic test depends on the sensitivity and specificity of the test and on the prevalence of the disease in the population being tested. The performance of the Widal test will vary according to the likelihood of typhoid in the group of patients being investigated. If the test were used as a screen for all febrile patients admitted to the CTD, the typhoid fever prevalence would be less than 1%. A negative result would have a good predictive value for the absence of disease, but a positive result would have a very low predictive value for typhoid fever. The result would be virtually useless for diagnosing typhoid fever. The test should be restricted to those who have a reasonable probability of having typhoid fever. At the CTD, the disease prevalence was approximately 30% in those investigated with a blood culture and a Widal test. At a prevalence of 30%, a negative O- and H-antigen titer has a 94% probability of excluding typhoid. A positive H-antigen titer of 200 or more has a 100% probability of confirming typhoid in children and a 95% probability of doing so in adults but would only confirm the diagnosis in 28% of blood culture-positive typhoid cases. A positive cutoff for an O- or H-antigen titer of ≥100 is frequently used at the CTD. At this cutoff, 88% of patients with blood culture-positive typhoid fever would be correctly diagnosed. However, 6% of the negative results would be false-negative and 26% of the positive results would be false-positive. With a positive cutoff for an O-antigen titer of ≥200 or an H-antigen titer ≥100, 74% of blood culture-positive patients would be correctly diagnosed, 10% of the negative results would be false-negative, and 14% of the positive results would be false-positive.

Overall, the level of H agglutinins was found to be more helpful than the level of O agglutinins. When the O-agglutinin titer is ≥400 or the H-agglutinin titer is ≥200, typhoid can be diagnosed with reasonable confidence. An O-agglutinin titer of ≥200 and an H-agglutinin titer of ≥100 in an appropriate clinical context is likely to indicate typhoid in an area such as Vietnam. A negative Widal test result in a patient with a clinical history compatible with typhoid does not exclude the disease. Although new serological tests for the diagnosis of typhoid fever are becoming available, they must be carefully validated in each region before being used widely (3). In a region of endemicity such as Vietnam, we can conclude that elevated levels of agglutinating O and H antibodies as measured in the Widal test can be helpful in making a presumptive diagnosis of typhoid fever if interpreted with care.