Eduardo Eustáquio de Souza Figueiredo

Prevalência de tuberculose bovina em animais e rebanhos abatidos em 2009 no estado de Mato Grosso, Brasil

The prevalence of bovine tuberculosis in cattle, and its herds, slaughtered in 2009 in the state of Mato Grosso, Brazil, was estimated using bacteriological analysis and molecular test, from fragments of injured tissues as well as direct DNA templates. 41,193 cattle, which appeared healthy in the ante mortem examination, from seven selected slaughterhouses, under Brazilian federal inspection services (SIF), were inspected. The animals were from 492 herds located in 85 (60%) different cities of Mato Grosso. A total of the 198 carcasses had suspicious lesions. Three carcasses (3/198) had lesions that were found to be tuberculous in laboratory diagnosis. The apparent prevalence of bovine tuberculosis in the total number of animals and in herds slaughtered in Mato Grosso was 0.007% [IC 95% = -0.001%; 0.016%] and 0.61% [IC 95% = -0.08%; 1.30%], respectively. The sanitation status demonstrated in Mato Grosso indicates the progress in this state toward the eradication of bovine tuberculosis.

Uso de métodos complementares na inspeção post mortem de carcaças com suspeita de tuberculose bovina

The aim of this study was used diagnostic methods (histopathological, bacteriological and molecular) in the trial of suspected tuberculosis lesions observed during routine post mortem inspection in abattoirs. A total of of 41,193 cattle, which appeared healthy in ante mortem examination, slaughtered in seven abattoirs in the state of Mato Grosso, Brazil were examined. The carcasses of 198 (0.48%) animals showed lesions, of which 182 (91.9%) were classified as granulomatous or pyogranulomatous by histopathological analysis. However, at bacilloscopy, the presence of acid-fast bacilli (AFB) was not detected. Mycobacterium bovis was recovered from 3 (1.5%) samples, all from retropharyngeal lymph nodes in cattle up to three years old. When multiplex PCR (m-PCR) was performed directly on fragments of injured tissue, M. bovis DNA was detected in 14 (7.0%) samples including the same 3 bacteriologically positive samples. Evaluation of lesions by macroscopic analysis agreed 93% (184/198) with bacteriological culturing and the molecular test. To avoid misinterpretation during the examination, mainly of paucibacillary lesions such as those found in the samples analyzed, the use of rapid and unequivocal complementary tests such as mPCR is recommended. Molecular diagnosis, combined with routine post mortem inspection, proved to be a promising technique to improve the surveillance of TB in abattoirs, contributing to the success of the bovine tuberculosis eradication program.

Multiple strains of Mycobacterium bovis revealed by molecular typing in a herd of cattle.

Mycobacterium bovis isolates from an outbreak of bovine tuberculosis in a herd of cattle in Rio de Janeiro, Brazil, were analysed by spoligotyping and variable-number tandem repeat PCR analysis of the mycobacterial interspersed repetitive unit and exact tandem repeats. Molecular typing revealed a high genetic diversity of strains in the herd. The genetic diversity could be explained by the introduction of infected animals from different sources.

Evaluation of the efficiency of nested q-PCR in the detection of Mycobacterium tuberculosis complex directly from tuberculosis-suspected lesions in post-mortem macroscopic inspections of bovine carcasses slaughtered in the state of Mato Grosso, Brazil.

Bovine tuberculosis (BTB) is a zoonotic disease caused by Mycobacterium bovis, a member of the Mycobacterium tuberculosis complex (MTC). The quick and specific detection of this species is of extreme importance, since BTB may cause economic impacts, in addition to presenting imminent risks to human health. In the present study a nested real-time PCR test (nested q-PCR) was used in post-mortem evaluations to assess cattle carcasses with BTB-suspected lesions. A total of 41,193 cattle slaughtered in slaughterhouses located in the state of Mato Grosso, were examined. Of the examined animals, 198 (0.48%) showed BTB-suspected lesions. M. bovis was isolated in 1.5% (3/198) of the samples. Multiplex-PCR detected MTC in 7% (14/198) of the samples. The nested q-PCR test detected MTC in 28% (56/198) of the BTB-suspected lesions, demonstrating higher efficiency when compared to the multiplex-PCR and conventional microbiology. Nested q-PCR can therefore be used as a complementary test in the national program for control and eradication of bovine tuberculosis.

A multidisciplinary approach to diagnose naturally occurring bovine tuberculosis in Brazil

A herd infected naturally with tuberculosis was investigated by different diagnostic methods. Ninety days after a screening test that identified 21 cows as skin test positive, a Comparative Intradermal Tuberculin Test (CITT) was performed in those 21 cows and in 29 other randomly selected skin test negative cows. Milk samples and nasal swabs were collected prior to the CITT for bacteriological culture and PCR, while blood samples were collected for IFN release and antibody responses to MPB70 and MPB83, at three time points post tuberculin injection. Animals positive by CITT were slaughtered and disease confirmation undertaken. Based on the Kappa test, IFN was comparable to the standard tests (culture, PCR and CITT) at all three sampling points. Results from both antibody ELISAs were similar but were not comparable to the standard tests. T-test analysis of the CITT, IFN and ELISAs demonstrated that their performances were not correlated. There is increasing recognition that individually, available diagnostic tests do not detect all infected cattle. Therefore, a comprehensive strategy for the diagnosis of bovine TB should include test results for the detection of both cellular and humoral immune responses where there may be animals at different stages of infection.

Escherichia coli O26 and O113:H21 on Carcasses and Beef from a Slaughterhouse Located in Mato Grosso, Brazil

Shiga toxin-producing Escherichia coli (STEC) is a group of emerging pathogens that can cause human diseases, including hemolytic uremic syndrome (HUS) and hemorrhagic colitis (HC). Monitoring slaughtering stages and checking contamination points are crucial for the production of safe food. In this context, the aim of this study was to verify contamination by STEC strains, to determine the contamination points and evaluate the resistance profile to 12 antimicrobials used in both veterinary and human medicine. A total of 80 samples were obtained from eight collection points (pen floor, rectum, hide, carcass swabs and esophagus, diaphragm, masseter, and retail beef tissue samples). The isolates were collected by dilution plating on MacConkey agar with sorbitol, cefixime, and tellurite and analyzed by multiplex polymerase chain reaction for virulence genes. Serotyping of non-O157 was performed, and testing for 12 antibiotics by disk diffusion was carried out. A total of 18 STEC strains were isolated, presenting different virulence profiles. Contamination by STEC was observed in the rectum (5/18), carcass surface (5/18), hide (3/18), diaphragm (2/18), retail beef (2/18), and masseter muscle (1/18). Pen floor swabs and esophagus tissues showed no STEC contamination. Moreover, three strains were identified as O26 and three as O113:H21 strains, which have been linked to HUS and HC outbreak cases in Brazil. All STEC isolates were susceptible to all evaluated antimicrobials, except streptomycin. The presence of STEC strains is a direct risk to the consumer, especially when isolated from retail beef, and contamination can occur during different slaughter stages. However, antimicrobial resistance profiles did not identify multidrug-resistant strains, limiting potential antimicrobial resistance transmission to other pathogens.