Abstract
To the Editor: In Vietnam, many febrile diseases such as malaria, dengue fever, Japanese encephalitis, scrub typhus, and more recently, severe acute respiratory syndrome (SARS) and avian influenza have been reported. Murine typhus cases were also reported during and before the 1960s but not thereafter (1–5). On May 3, 2003, a 54-year-old male resident of Tokushima, Japan, had onset of fever in the suburban town of Cu Chi, ≈60 km northwest of Ho Chi Minh City, Vietnam. Exanthema appeared on his trunk and limbs on May 7. He returned to Japan on May 9 and was admitted to Tokushima University Hospital on May 10. His body temperature was 39.0°C, and serum, C-reactive protein level was high (17.06 mg/dL) on admission (day 8 of illness). Unfortunately, the blood sample taken on that day was discarded. We then collected blood on days 10, 11, 12, 14, 17, and 24 of illness for diagnosis. Minocycline was administered on day 8 and resulted in a gradual decrease in fever and rash. Weil-Felix tests on day 12 showed the serum to be positive for Proteus vulgaris OX19 (titer 160); tests for P. vulgaris OX2 and OXK were negative (titer of 10 for both). We examined blood samples for possible diseases such as malaria, dengue fever, SARS, and rickettsioses. Giemsa-stained peripheral blood samples obtained on day 11 showed no malarial parasites. Results of immunoglobulin M (IgM)-capture ELISA of serum on days 10, 11, and 17 of illness were negative for dengue antibodies. Reverse transcription (RT)–PCR of the serum on day 11 was also negative. RT-PCRs of a pharyngeal swab and urine collected on day 11 were both negative for the SARS coronavirus. These specimens were also injected into Vero cells, and no cytopathic effects were generated. RT-PCR of these cultures was also negative for SARS coronavirus. Moreover, SARS antibodies were not found in serum samples on days 11 and 14 of illness. Serum was also tested for Orientia tsutsugamushi and Coxiella burnttii on day 12 to exclude scrub typhus and Q fever as diagnoses. Indirect immunofluorescence tests for etiologic agents of spotted fever, murine typhus, and epidemic typhus were then performed with serum samples collected on days 10, 14, and 24. We used Rickettsia typhi and R. prowazekii as typhus group (TG) rickettsial antigens and R. japonica and R. conorii as spotted fever group (SFG) rickettsiae. IgM antibody was detected for these antigens, indicating that the disease was a primary infection of rickettsiae (Table). When TG and SFG rickettsioses were compared, TG rickettsiae represented markedly higher elevated titers than SFG rickettsiae, which excluded a diagnosis of SFG rickettsiosis. PCR for the TG rickettsial genome in the convalescent-phase serum on day 10 was negative. Table IFA titers of the patient sera and the cross-absorption test* To demonstrate more detailed antigenic reactivity, Western immunoblotting was performed with serum on day 14 (6). The serum reacted similarly to the ladderlike lipopolysaccharide (LPS) of R. typhi and R. prowazekii. As expected from the group-specific nature of rickettsial LPS, no reaction was demonstrated to LPS of SFG rickettsiae, R. japonica and R. conorii, although weak reactivity, mainly to the major outer member protein of SFG rickettiae, rOmpB, and molecules of smaller sizes was shown (6,7). As described previously, rOmpB has cross-reactive antigenicity between TG and SFG rickettsiae (6). Compared with the trace reaction to rOmpB of SFG rickettsiae, an extremely high level of reaction was demonstrated to rOmpB of TG rickettsiae. These results confirmed the disease to be a TG rickettsiosis. To elucidate whether the disease was murine typhus or epidemic typhus, we conducted cross-absorption tests as described previously (8,9). Serum absorbed by R. typhi showed complete absorption, demonstrating no reaction to R. typhi or R. prowazekii (Table). However, the serum absorbed by R. prowazekii resulted in incomplete absorption, demonstrating no reactivity to R. prowazekii but some reactivity to R. typhi, which was left unabsorbed. Western immunoblotting with the serum absorbed by R. prowazekii showed reactivity only to the rOmpB of R. typhi but not to that of R. prowazekii. These results confirmed the diagnosis of murine typhus. This is the first serodiagnosis of murine typhus in Vietnam since the 1960s (1–5). Since rats inhabit the area where the patient acquired the illness, murine typhus seems to have occurred sporadically or endemically but to have been undiagnosed since the 1960s, maybe because it was thought to have been eradicated and thus widely forgotten. This case was the first imported into Japan since the 1940s, when many Japanese soldiers and residents who returned from abroad had the disease.
Highlights
We examined blood samples for possible diseases such as malaria, dengue fever, severe acute respiratory syndrome (SARS), and rickettsioses
Results of immunoglobulin M (IgM)-capture ELISA of serum on days 10, 11, and 17 of illness were negative for dengue antibodies
We used Rickettsia typhi and R. prowazekii as typhus group (TG) rickettsial antigens and R. japonica and R. conorii as spotted fever group (SFG) rickettsiae
Summary
To the Editor: In Vietnam, many febrile diseases such as malaria, dengue fever, Japanese encephalitis, scrub typhus, and more recently, severe acute respiratory syndrome (SARS) and avian influenza have been reported. His body temperature was 39.0°C, and serum, C-reactive protein level was high (17.06 mg/dL) on admission (day 8 of illness). We examined blood samples for possible diseases such as malaria, dengue fever, SARS, and rickettsioses.
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