SETTING: Timely diagnosis of tuberculosis (TB) is essential for effectively controlling and managing the disease. Although international guidelines recommend acid-fast bacilli staining and culture as the 'gold standard', new molecular methods are available to safely and rapidly identify positive samples. OBJECTIVE: To evaluate the performance of the newer and fully automated version of a molecular assay for rRNA amplification (TRCReady® M.TB) on 1028 respiratory samples collected from 378 patients for its possible use as a reliable screening method. Results were evaluated using culture as the reference test. RESULTS: Of four diagnostic protocols employed, best results were obtained when TRCReady M.TB was used together with microscopy on the first respiratory sample, followed by microscopy alone on a second one. The sensitivity and specificity were respectively 97% and 100%, with a turnaround time of 24 h. We propose a possible laboratory algorithm for rapid identification of patients with TB. CONCLUSIONS: TRCReady offers the advantages of full automation and avoidance of cross-contamination. As such, it should be considered as a more economical option for TB screening than other commercial assays that are currently available.
SETTING: Timely diagnosis of tuberculosis (TB) is essential for effectively controlling and managing the disease. Although international guidelines recommend acid-fast bacilli staining and culture as the 'gold standard', new molecular methods are available to safely and rapidly identify positive samples. OBJECTIVE: To evaluate the performance of the newer and fully automated version of a molecular assay for rRNA amplification (TRCReady® M.TB) on 1028 respiratory samples collected from 378 patients for its possible use as a reliable screening method. Results were evaluated using culture as the reference test. RESULTS: Of four diagnostic protocols employed, best results were obtained when TRCReady M.TB was used together with microscopy on the first respiratory sample, followed by microscopy alone on a second one. The sensitivity and specificity were respectively 97% and 100%, with a turnaround time of 24 h. We propose a possible laboratory algorithm for rapid identification of patients with TB. CONCLUSIONS: TRCReady offers the advantages of full automation and avoidance of cross-contamination. As such, it should be considered as a more economical option for TB screening than other commercial assays that are currently available.