Human brucellosis poses a significant public health problem in many developing countries and requires fast and accurate diagnosis. A PCR assay amplifying part of the 31-kDa Brucella abortus antigenic protein gene sequence was developed and applied to whole-blood and serum samples from 31 brucellosis patients and 45 healthy individuals. All patients except one had detectable Brucella DNA in either whole blood or serum (combined sensitivity, 97%), but the assay sensitivity was higher with serum samples (94%) than with wholeblood samples (61%). The assay specificity was excellent (100%). A confirmatory PCR assay targeting another Brucella gene region (omp-2) was also developed but lacked sensitivity. Serum is the optimal specimen for the diagnosis of brucellosis by PCR, a choice that leads to assay simplification and shortens turnaround time.Brucellosis is still an important zoonosis of both public health and economic significance in many developing countries. Half a million new cases are reported worldwide each year, but according to the World Health Organization, these numbers greatly underestimate the true incidence of human disease (22). As the clinical picture of human brucellosis is extremely variable, diagnosis can be established only by laboratory methods. Since the disease constitutes a serious infection necessitating treatment with a prolonged course of antibiotics, accuracy and short turnaround time are required for these tests (21).Blood cultures represent the "gold standard" of laboratory diagnosis. Automated systems have been reported to detect more than 95% of Brucella melitensis-positive cultures within 7 days of incubation (23). Unless this technology is not available, prolonged incubation, blind subcultures, and special growth media are no longer required (23). Ironically, however, the technology indeed is lacking in developing countries or rural areas where the disease is prevalent. In addition, due to their comparatively long doubling time, Brucella species grow slowly on primary cultures and subcultures, while their inert biochemical profiles hamper fast identification of isolates (9). Distinct disease conditions like focal, relapsing, or chronic disease and disease caused by species other than B. melitensis are characterized by low blood culture yields and pose special diagnostic problems (1, 2). Consequently, detection and identification of Brucella spp. in clinical specimens by cultures may still be a difficult task with significant delays.Several agglutination tests (Rose Bengal, Wright's tube, Wright's card, and Wright-Coombs) and indirect immunofluorescence, complement fixation, and enzyme-linked immunosorbent assays are also available for diagnosis of brucellosis (3, 14, 24). The standard, with which all other methods should be compared, is Wright's tube agglutination test (1,14). A broad range of test sensitivity, low specificity in areas of endemicity, lack of usefulness in diagnosing chronic disease and relapse, presence of cross-reacting antibodies, and lack of timeliness constitute ...
