There have been rapid technological advances in the detection of Mycobacterium tuberculosis and its drug susceptibility in clinical samples. These include advances in microscopic examination, in vitro culture and application of molecular techniques. The World Health Organization (WHO) has played a large role in evaluating these technologies for their efficacy and feasibility, especially in the developing countries. Amongst these, the Revised National Tuberculosis Control Programme (RNTCP), through its national network of designated microscopy centres and intermediate reference laboratories, has adopted certain technologies that are currently implemented in India. Advances in microscopy technology include fluorescent microscopy using light-emitting diode source, sodium hypochlorite microscopy and vital fluorescent staining of sputum smears. Automation of in vitro culture has markedly reduced the turnaround time (TAT), even in smear-negative samples, and permits simultaneous detection of resistant mutants. Molecular detection of drug resistance has further reduced the TAT, and the cartridge-based nucleic acid amplification test with its performance convenience and rapid results, appears poised to become the future of tuberculosis (TB) diagnosis in all settings, provided the cost of testing is reduced especially for use in private diagnostic settings. This article reviews technologies currently available for the diagnosis of TB, keeping in mind the WHO recommendations and the RNTCP practices. This is a thematic synthesis of data available on diagnosis in literature, preserving the conclusions of the primary studies.
Context:Enterococcus is considered an important nosocomial pathogen because of its intrinsic as well as acquired antibiotic resistance. It also has the potential of transferring vancomycin resistance to other organisms such as Listeria monocytogens and Staphylococcus aureus. Aims: The objective of the present study was to determine antibiotic-resistance pattern of Enterococcus with special reference to vancomycin. Settings and Design: A total of 54 clinical isolates of enterococci were collected during the study period of 1 year at a tertiary care center in Mumbai. Material and Methods: Speciation and antibiotic sensitivity testing were done by standard procedures. Minimum inhibitory concentration (MIC) to vancomycin was carried out by agar dilution method. Results: Speciation and antibiotic sensitivity testing were done by standard procedures. The MIC to vancomycin was done by agar dilution method. Conclusions: Vancomycin, Linezolid, and Teicoplanin can be safely used for the treatment of serious enterococcal infections.
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