Advances in dengue diagnosis.

Abstract

Despite improvements in health, epidemics of infectious diseases continue to occur, and new diseases emerge and old diseases reemerge (113). Mosquito-borne flavivirus diseases are currently considered reemerging infections because of the increase in the incidences of yellow fever and, mainly, dengue fever and dengue hemorrhagic fever/dengue shock syndrome (DHF/DSS) observed in the last few years (30, 86). The dengue syndrome is an acute febrile viral exanthem, accompanied by headache, myalgia, anorexia, gastrointestinal disturbances, and postration, caused by viruses transmitted by mosquitoes (43). DHF is a severe febrile disease characterized by abnormalities of hemostasis and increased vascular permeability. DSS is the result of a hypovolemic shock observed in some DHF cases. DHF/DSS represents the severe form of dengue fever (52). The disease is caused by any one of the four distinct serotypes (1 to 4) of the dengue virus (52, 114). These viruses are members of the family Flaviviridae; they have a common morphology and genomic structure, and all members share common antigenic determinants. The four dengue virus serotypes are classified as a complex on the basis of clinical, biological, and immunological criteria. Dengue virus complex-specific antigenic determinants have been demonstrated by using neutralization assays, which also can differentiate the dengue virus complex into four antigenically distinct dengue virus serotypes, since each serotype presents a type-specific determinant (49, 52). The flaviviruses are transmitted by mosquitoes of the Stegomia family, mainly Aedes aegypti, a domestic, day-biting mosquito that prefers to feed on humans (52, 99). This is a highly urbanized mosquito, breeding in water stored for domestic use or collected rainwater. A jungle cycle has been proposed to exist in Southeast Asia, since there is a high rate of dengue transmission among different species of monkeys (52, 105). The genomic RNA of dengue viruses is single stranded and approximately 11 kb in length. The RNA is infectious and, as in the rest of the flaviviruses, it has a single open reading frame (103). The order of proteins encoded in the long open reading frame is 59-C-prM(M)-E-NS1-NS2A-NS2B-NS3-NS4A-NS4BNS5-39. The mature virion contains three structural proteins: C, the nucleocapside or core protein of 13.5 kDa; M, a membrane-associated protein of 8 kDa; and the E (envelope) protein of 51 kDa. The E protein has the sites for viral attachment to and transport through host cell plasma membranes. Functional domains responsible for the neutralization and hemagglutination of goose erythrocytes are associated with the E protein. It contains epitopes specific for serotype, dengue complex, and group (6, 48, 103, 115). Considering the technology currently used for the diagnosis of dengue viruses, a case definition in which laboratory confirmation is emphasized has been proposed. The laboratory criteria for confirmation of the infection and the disease include the isolation of dengue virus from serum and/or autopsy samples, the demonstration of a fourfold or greater increase in the titer of immunoglobulin G (IgG) or IgM antibody to one or more dengue virus antigens in paired serum samples, or the demonstration of dengue virus antigen in autopsy tissue or serum samples by immunohistochemistry, by immunofluorescence, or by the detection of the viral nucleic acid (98).