Guilherme Nardi Becker1, Felipe Francisco Tuon2. 1. Laboratory of Emerging Infectious Diseases, School of Medicine, Pontifícia Universidade Católica do Paraná, Curitiba, PR 80215-901, Brazil; Laboratorio Central do Estado, São Jose dos Pinhais, PR, Brazil. 2. Laboratory of Emerging Infectious Diseases, School of Medicine, Pontifícia Universidade Católica do Paraná, Curitiba, PR 80215-901, Brazil. Electronic address: felipe.tuon@pucpr.br.
Abstract
BACKGROUND: Clinical diagnosis of human brucellosis (HB) is often difficult due to non-specific symptoms. Immunological tests have been the most common method used in HB diagnosis, but molecular methods based on quantitative polymerase chain reaction (qPCR) have largely replaced these diagnostic methods. The aim of this study was to validate a HB diagnostic qPCR method; assessing different target Brucella genes, and the influence of biological matrices (serum vs. whole blood) on analytical parameters. MATERIAL AND METHODS: Two target genes, IS711 and bcsp31, for HB molecular diagnosis were evaluated, together with biological matrix type (whole blood and serum) using samples spiked with Brucella abortus. In addition, diagnostic parameters of this qPCR method were evaluated in paired whole blood and serum samples from patients with suspected HB. RESULTS: Both genes could be potential diagnostic targets, but IS711 showed a lower limit of detection. In spiked matrix experiments, whole blood showed a lower limit of detection than serum after probit regression (224 vs. 3681 CFU/mL) and ANOVA analysis showed a significant (p < 0.001) difference between the Cq of whole blood at all dilutions and that of serum. In 12 paired clinical samples, no serum samples and only one whole blood sample tested positive for Brucella using this qPCR detection method. CONCLUSIONS: This standardized qPCR-based Brucella detection method could improve diagnosis of HB, serving as a rapid, highly sensitive, and specific test. Whole blood is better suited to qPCR-based HB diagnosis due to the presence of higher target DNA loads in this matrix, compared to serum.
BACKGROUND: Clinical diagnosis of humanbrucellosis (HB) is often difficult due to non-specific symptoms. Immunological tests have been the most common method used in HB diagnosis, but molecular methods based on quantitative polymerase chain reaction (qPCR) have largely replaced these diagnostic methods. The aim of this study was to validate a HB diagnostic qPCR method; assessing different target Brucella genes, and the influence of biological matrices (serum vs. whole blood) on analytical parameters. MATERIAL AND METHODS: Two target genes, IS711 and bcsp31, for HB molecular diagnosis were evaluated, together with biological matrix type (whole blood and serum) using samples spiked with Brucella abortus. In addition, diagnostic parameters of this qPCR method were evaluated in paired whole blood and serum samples from patients with suspected HB. RESULTS: Both genes could be potential diagnostic targets, but IS711 showed a lower limit of detection. In spiked matrix experiments, whole blood showed a lower limit of detection than serum after probit regression (224 vs. 3681 CFU/mL) and ANOVA analysis showed a significant (p < 0.001) difference between the Cq of whole blood at all dilutions and that of serum. In 12 paired clinical samples, no serum samples and only one whole blood sample tested positive for Brucella using this qPCR detection method. CONCLUSIONS: This standardized qPCR-based Brucella detection method could improve diagnosis of HB, serving as a rapid, highly sensitive, and specific test. Whole blood is better suited to qPCR-based HB diagnosis due to the presence of higher target DNA loads in this matrix, compared to serum.