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Determination of the activity of standard anti-tuberculosis drugs against intramacrophage Mycobacterium tuberculosis, in vitro: MGIT 960 as a viable alternative for BACTEC 460

Abstract

BACTEC 460 has now been phased out, so the search for an alternative is imperative. We have determined the activity of standard anti-tuberculosis drugs against intramacrophage Mycobacterium tuberculosis, in vitro, by using BACTEC 460 and MGIT 960 methods. The minimum inhibitory concentrations of isoniazid, rifampicin, ethambutol and streptomycin against intracellular M. tuberculosis H37Rv were found to be 0.2, 0.8, 8.0, and 5.0 µg/mL, respectively, by both methods. These results show a significant (p < 0.001) concordance between minimum inhibitory concentrations obtained by these two different methods. MGIT 960 system uses a robust florescence quenching-based oxygen sensor, requires no radioisotope, is safe, and relatively easy to operate. Apparently, this is the first report wherein MGIT 960 has been validated for anti-tubercular susceptibility testing against intracellular M. tuberculosis H37Rv. Our preliminary data thus clearly demonstrate that the MGIT 960 method can be considered as a promising alternative to BACTEC 460 method.

BACTEC 460; Macrophages; MGIT 960; Mycobacterium tuberculosis


Introduction

Tuberculosis (TB) is a global pandemic and a re-emerging bacterial infectious disease caused by obligate human pathogen Mycobacterium tuberculosis. It affects one third of the human population.11. Lönnroth K, Castro KG, Chakaya JM, et al. Tuberculosis control and elimination 2010-50: cure, care, and social development. Lancet. 2010;375:1814-29. There is an estimated 2.5 billion people infected with TB worldwide with 8.7 million (range 8.3-9.0 million) new cases, and an annual mortality of approximately 1.0 million (range 0.84-1.1 million) people, and an additional mortality of 0.43 million (range 0.40-0.46 million) among human immunodeficiency virus (HIV)-infected people.22. World Health Organization. Global tuberculosis control 2012. Geneva: World Health Organization; 2012. TB kills one individual in every 18 s and infects an individual every second.33. Parida SK. True facts of TB diagnosis in 2012: hypes and realities. Eur J Microbiol Immunol. 2012;2:275-81. Despite the availability of effective drugs to treat TB patients, we have failed to stop the menace of this deadly disease, which has worsened due to emergence of both multidrug-resistant tuberculosis (MDR-TB) and extensively drug-resistant (XDR-TB).44. Aziz MA, Wright A, Laszlo A, et al. Epidemiology of anti- tuberculosis drug resistance (the global project on anti- tuberculosis drug resistance surveillance): an updated analysis. Lancet. 2006;368:2142-54. , 55. Balabanova Y, Ruddy M, Hubb J, et al. Multidrug-resistant tuberculosis in Russia: clinical characteristics, analysis of second-line drug resistance and development of standardized therapy. Eur J Clin Microbiol Infect Dis. 2005;24:136-9. and 66. Toungoussova OS, Mariandyshev AO, Bjune G, Caugant DA, Sandven P. Resistance of multidrug-resistant strains of Mycobacterium tuberculosis from the archangel oblast, Russia, to second-line anti- tuberculosis drugs. Eur J Clin Microbiol Infect Dis. 2005;24:202-6. The increase in the incidence of drug resistant TB in HIV infected individuals is a leading cause of death, and is further worsening the TB situation worldwide.

The major phenomenon in the development of TB in humans is considered to be an interaction between macrophages and the mycobacteria. Various standardized methods are commonly used to study the susceptibility to drugs of intracellular mycobacteria such as plating, micro plate alamar blue assay and BACTEC 460.77. Bemer- Melchior P, Bryskier A, Drugeon HB. Comparison of the in vitro activities of rifapentine and rifampicin against Mycobacterium tuberculosis complex. J Antimicrob Chemother. 2000;46:571-6. , 88. Jhamb SS, Singh RP, Singh PP. A comparison of conventional and radiometric method for the assessment of anti- tubercular activity of drugs against Mycobacterium tuberculosis in mice and macrophage models. Indian J Tuberc. 2007;55:70-6. and 99. Rastogi N, Labrousse V, Bryskier A. Intracellular activities of roxithromycin used alone and in association with other drugs against Mycobacterium avium complex in human macrophages. Antimicrob Agents Chemother. 1995;39:976-8.

Both plating (conventional) method and BACTEC 460 (Becton, Dickinson, USA) are considered as gold-standard for measuring the growth of intracellular mycobacteria in macrophages.77. Bemer- Melchior P, Bryskier A, Drugeon HB. Comparison of the in vitro activities of rifapentine and rifampicin against Mycobacterium tuberculosis complex. J Antimicrob Chemother. 2000;46:571-6. , 88. Jhamb SS, Singh RP, Singh PP. A comparison of conventional and radiometric method for the assessment of anti- tubercular activity of drugs against Mycobacterium tuberculosis in mice and macrophage models. Indian J Tuberc. 2007;55:70-6. , 99. Rastogi N, Labrousse V, Bryskier A. Intracellular activities of roxithromycin used alone and in association with other drugs against Mycobacterium avium complex in human macrophages. Antimicrob Agents Chemother. 1995;39:976-8. , 1010. Dhillon J, Mitchison DA. Activity and penetration of antituberculosis drugs in mouse peritoneal macrophages infected with Mycobacterium microti ov254. Antimicrob Agents Chemother. 1989;33:1255-9. and 1111. Duman N, Çevikba A, Johansson C. The effects of rifampicin and fluoroquinolones on tubercle bacilli within human macrophages. Int J Antimicrob Agents. 2004;23:84-7. Plating method requires longer period of incubation (almost three weeks) and the results are compromised by cross contamination. However BACTEC 460 system has a shorter period of incubation, is highly sensitive and reproducible, but it also has certain limitations. Firstly, it involves the use of radioisotopes and requires special attention during disposal.1212. Salfinger M, Pfyffer GE. The new diagnostic mycobacteriology laboratory. Eur J Clin Microbiol Infect Dis. 1994;13:961-79. Secondly, it is labor intensive, semi-automated, needs considerable hands on time.1212. Salfinger M, Pfyffer GE. The new diagnostic mycobacteriology laboratory. Eur J Clin Microbiol Infect Dis. 1994;13:961-79. Moreover, BACTEC 460 has been discontinued by manufacturer due to radioactivity related safety issues.

Therefore, there is an urgent need to develop/standardize new methods, which are free of such limitations. Several evaluations concerning antimicrobial susceptibility testing using MGIT (mycobacterial growth indicator tube; Becton Dickinson, USA) medium have already been reported.1313. Adjers-Koskela K, Katila ML. Susceptibility testing with the manual mycobacteria growth indicator tube (MGIT) and the MGIT 960 system provides rapid and reliable verification of multidrug-resistant tuberculosis. J Clin Microbiol. 2003;41:1235-9. , 1414. Bemer P, Palicova F, Rusch- Gerdes S, Drugeon HB, Pfyffer GE. Multicenter evaluation of fully automated BACTEC mycobacteria growth indicator tube 960 system for susceptibility testing of Mycobacterium tuberculosis. J Clin Microbiol. 2002;40:150-4. , 1515. Huang TS, Tu HZ, Lee SSJ, Huang WK, Liu YC. Antimicrobial susceptibility testing of Mycobacterium tuberculosis to first-line drugs: comparisons of the MGIT 960 and BACTEC 460 systems. Ann Clin Lab Sci. 2002;32:142-7. and 1616. Somoskovi A, Kodmon C, Lantos A, et al. Comparison of recoveries of Mycobacterium tuberculosis using the automated BACTEC MGIT 960 system, the BACTEC 460 TB system, and lowenstein-jensen medium. J Clin Microbiol. 2000;38:2395-7. Its performance has been found to be equivalent to radiometric BACTEC 460, plating and other methods.1616. Somoskovi A, Kodmon C, Lantos A, et al. Comparison of recoveries of Mycobacterium tuberculosis using the automated BACTEC MGIT 960 system, the BACTEC 460 TB system, and lowenstein-jensen medium. J Clin Microbiol. 2000;38:2395-7. In this study, we have tried to standardize the method for studying the effect of isoniazid (INH), rifampin (RIF), ethambutol (EMB) and streptomycin (STP) against intramacrophage M. tuberculosis, in vitro using MGIT 960, which is a fully automated, non-radioactive (use a fluorescence quenching based oxygen sensor), and non-invasive system. In this MGIT 960 system, tubes are monitored automatically within in-built incubation system. Every tube is monitored hourly and specific algorithms that determine the positivity of tubes are drawn automatically.1313. Adjers-Koskela K, Katila ML. Susceptibility testing with the manual mycobacteria growth indicator tube (MGIT) and the MGIT 960 system provides rapid and reliable verification of multidrug-resistant tuberculosis. J Clin Microbiol. 2003;41:1235-9. , 1414. Bemer P, Palicova F, Rusch- Gerdes S, Drugeon HB, Pfyffer GE. Multicenter evaluation of fully automated BACTEC mycobacteria growth indicator tube 960 system for susceptibility testing of Mycobacterium tuberculosis. J Clin Microbiol. 2002;40:150-4. , 1515. Huang TS, Tu HZ, Lee SSJ, Huang WK, Liu YC. Antimicrobial susceptibility testing of Mycobacterium tuberculosis to first-line drugs: comparisons of the MGIT 960 and BACTEC 460 systems. Ann Clin Lab Sci. 2002;32:142-7. and 1616. Somoskovi A, Kodmon C, Lantos A, et al. Comparison of recoveries of Mycobacterium tuberculosis using the automated BACTEC MGIT 960 system, the BACTEC 460 TB system, and lowenstein-jensen medium. J Clin Microbiol. 2000;38:2395-7.

Materials and methods

INH, RIF, EMB and STP were purchased from Becton Dickinson, USA. These drugs were used to test the susceptibilities of the mycobacteria using BACTEC 460 and MGIT 960 system. The solutions of these standard drugs were prepared in sterile water as per manufacturers' instructions.

M. tuberculosis H37Rv was obtained from Tuberculosis Research Centre (TRC), Chennai, India. The organisms were grown in complete 7H9 broth (Difco, USA) supplemented with 1% glycerol, 0.05% Tween-80 (Sigma-Aldrich, USA) and 10% Middlebrook OADC enrichment (Difco). Log phase cultures of mycobacteria were centrifuged and washed thrice with saline. After washing, pellets were re-suspended in saline and allowed to stand at room temperature for 10 min. The mycobacterial suspension was adjusted to 1 McFarland standard (3 × 108 cells/mL) with DMEM containing 1% fetal calf serum for inoculation. The purity of culture was checked by Ziehl-Neelsen staining (Hi-Media, India).

Swiss mice (male/female; 18-20 g) were obtained from the central animal facility of the institute and maintained in 12-h light/dark cycle at 37 °C, with food and water provided ad libitum. All studies were carried out in accordance with the guidelines for care and use of animals in scientific research, Indian National Science Academy, New Delhi as adapted and promulgated by the institutional animal ethics committee.

Thioglycolate elicited mouse peritoneal macrophages (PMs) exudate cells were isolated as described earlier.1717. Kaur S, Kaur H, Singh PP. Induction of colony-stimulating factors by a 30-KDa secretory protein of Mycobacterium tuberculosis H37Rv. Eur Cytokine Netw. 2004;15:327-38. Briefly, the cells were washed and finally suspended in antibiotic-free DMEM (PAA lab, Austria) containing 2 mM L-glutamine (PAA lab), 0.01 M HEPES (HiMedia, India) and 1 × 10 and 4 M 2-mercaptoethanol, supplemented with 10% FBS (PAA Lab; CDMEM). The cell pellets were seeded in 24-well sterile tissue culture plates with 1 × 106 cells/well in a total volume of 2 mL per well. The cells were incubated overnight at 37 °C in 5% CO2 incubator for adherence, and the non-adherent cells were washed-off with warm Hank's balanced salt solution (HBSS). Purity of PMs was checked as per morphologic, phagocytic and non-specific esterase staining criteria, and viability was judged by trypan blue dye exclusion method.1717. Kaur S, Kaur H, Singh PP. Induction of colony-stimulating factors by a 30-KDa secretory protein of Mycobacterium tuberculosis H37Rv. Eur Cytokine Netw. 2004;15:327-38.

Adherent layer of PMs was infected with M. tuberculosis H37Rv suspension containing 107 bacteria per well (multiplicity of infection 10:1) and the phagocytosis was allowed for 4 h at 37 °C in 5% CO2 atmosphere. All the extracellular mycobacteria were washed by three changes of warm HBSS. The contents of the wells were replaced with fresh DMEM with or without drugs and incubated in (37° C, 5% CO2) incubator. Supernatant was removed after specific periods (four days and seven days) of incubation, washed three times with HBSS and PMs were lysed by addition of 0.4 mL of 0.25% sodium dodedcyl sulphate and 1.1 mL of Middle Brook 7H9 media. After 10 min of incubation, 0.5 mL of 20% bovine serum albumin was added and further incubated for 10 min. The cell suspension was vortexed, sonicated and drawn up and down through a needle so as to get homogeneous single cell suspension.

Antibiotic susceptibility was performed by radiometric BACTEC 460 TB system as per standard protocol.1515. Huang TS, Tu HZ, Lee SSJ, Huang WK, Liu YC. Antimicrobial susceptibility testing of Mycobacterium tuberculosis to first-line drugs: comparisons of the MGIT 960 and BACTEC 460 systems. Ann Clin Lab Sci. 2002;32:142-7. Different dilutions of macrophage lysates (as prepared above) were inoculated in BACTEC 12 B vials in triplicate and incubated at 37 °C in 5% CO2 atmosphere. Results were read every 24 h in BACTEC 460 TB system. Appropriate positive and negative controls were also taken. Growth index (GI) determination was done daily under aerobic mode in BACTEC 460 TB system until 1:100 controls reading reached the value of 30.

The antibiotic susceptibility was also performed with MGIT 960 in accordance with the standard procedure.1818. Hunag TS, Jung Lee SS, Tu HZ, et al. Use of MGIT 960 for rapid quantitative measurement of the susceptibility of Mycobacterium tuberculosis complex to ciprofloxacin and ethionamide. J Antimicrob Chemother. 2004;38:2395-7. MGIT 960 system uses oxygen quenching fluorescent sensor in conjunction with software algorithms to determine the "positive" tubes. MGIT 960 system monitors the vials for oxygen utilization, which result in an increase in fluorescence as an indicator of growth. Different dilutions of macrophage lysates (as prepared above) were inoculated in MGIT 960 tubes in triplicate. Bacterial growth is determined in terms of growth units (GU). Appropriate positive and negative controls were included. GU was monitored in MGIT 960 system until 1:100 control reading reached the threshold value.

Both the methods were employed to determine MICs of standard drugs. In BACTEC 460, the MIC is defined as the lowest concentration of drug at which the increase in GI was equal to or less than that of control (1:100).1919. Gangadharam PR, Perumal VK, Podapati NR, Kesavalu L, Iseman MD. In vivo activity of amikacin alone or in combination with clofazimine or rifabutin or both against acute experimental Mycobacterium avium complex infections in beige mice. Antimicrob Agents Chemother. 1988;32:1400-3. and 2020. Jagannath C, Reddy MV, Kailasam S, O'Sullivan JF, Gangadharam PR. Chemotherapeutic activity of clofazimine and its analogues against Mycobacterium tuberculosis. In vitro, intracellular, and in vivo studies. Am J Respir Crit Care Med. 1995;151:1083-6. In MGIT 960, the MIC is defined as the lowest dilution that gives negative results by automated reading in drug-containing tubes when the 1:100 control vials turned positive.1818. Hunag TS, Jung Lee SS, Tu HZ, et al. Use of MGIT 960 for rapid quantitative measurement of the susceptibility of Mycobacterium tuberculosis complex to ciprofloxacin and ethionamide. J Antimicrob Chemother. 2004;38:2395-7.

All results were analyzed using Sigma plot Statistical Software 11.0. The values were expressed as mean ± SD of three separate experiments, run in triplicate. Multiple groups were analyzed by one-way ANOVA followed by Turkey's multiple comparison tests. p < 0.05 was considered as statistically significant.

Results

In the present study, MICs of RIF, INH, EMB, and STP were determined against intramacrophage M. tuberculosis H37Rv, in vitro. MICs of INH, RIF, EMB, and STP against intracellular M. tuberculosis H37Rv were found to be 0.2, 0.8, 8.0, and 5.0 µg/mL respectively, by both BACTEC 460 and MGIT 960 methods. Fig. 1 show that INH was also effective (p < 0.001) in killing the M. tuberculosis H37Rv-infected PMs at 0.05, 0.1 and 0.2 µg/mL concentrations using BACTEC 460 at 4th day and 7th day. Similarly, Fig. 1 also summarizes the effect of RIF, EMB, STP against M. tuberculosis H37Rv-infected PMs. RIF was found to be effective at 0.2, 0.4 and 0.8 µg/mL concentrations using BACTEC 460 at 4th day and 7th day (Fig. 1). EMB was found to be effective at 2.0, 4.0 and 8.0 µg/mL concentrations using BACTEC 460 at 4th day and 7th day (Fig. 1). In the same way, STP was effective at 1.25, 2.50, 5.0 µg/mL against intracellular M. tuberculosis (Fig. 1). The results were found to be highly statistically significant (p < 0.001). In the same way, various concentrations of INH, RIF, EMB and STP showed almost similar effect in killing the intracellular M. tuberculosis H37Rv using MGIT 960 at 4th day and 7th day. These results were also found to be highly statistically significant (p < 0.001) at all the three different concentrations. Various growth stages of mycobacteria using epicenter software are shown in Fig. 2.

Fig. 1
Typical radiometric data illustrating the MIC level of Isoniazid (INH), Rifampin (RIF), Ehambutol (EMB) and Streptomycin (STP); at 4 day (a) and 7 day (b) interval against the drug susceptible M. tuberculosis strain. PMs (2 × 10(6)) were infected in culture at a bacterium to macrophage ratio (10:1). Infected PMs without drug treatment were used as control (1:100). Error bars represent the standard deviation from mean. Values are mean ± SD of three separate experiments, run in triplicate. Statistical analysis was performed by ANOVA and Tukey's multiple comparison test. The growth was monitored radiometrically in 7H12 broth with the BACTEC 460 TB system.

Fig. 2
MGIT growth and detection plot. Red line indicates growth units of inoculated culture and green line indicates threshold value (minimum value of growth units at which our culture sample become positive). (A) No growth; (B) increase in growth; (C) growth units crosses the threshold value (our culture sample become positive); (D) stationary phase (no subsequent increase in growth). All the images are obtained through epicenter software.

Discussion

Plating method is a laborious procedure and requires long period of incubation. Since 1994, BACTEC 460 has been widely employed for determining the anti-tubercular activity of various drugs against intracellular M. tuberculosis H37Rv, and it gives results within 5-6 days. But due to increasing concerns about radioactivity and its disposal, it has been discontinued/phased out by the manufacturer. Therefore, there is an urgent need to standardize a method to overcome these shortcomings. Although, there is no impendent to M. tuberculosis H37Rv susceptibility testing with non-automated liquid media, only automated system like MGIT 960 has the potential to replace the semi-automated BACTEC 460 TB system. Among all the automated systems, MGIT 960 has shown good sensitivity and reliability for screening the anti-tubercular activity of drugs, in vitro. Here, we have tested the utility, reliability and reproducibility of MGIT 960 to determine the intracellular activity of four anti-TB drugs RIF, INH, EMB, and STP against M. tuberculosis H37Rv, in vitro. We have evaluated the BACTEC 460 TB against MGIT 960, and a good correlation was observed between the two methods for all the drugs tested in this model. Time needed for test completion was found to be almost similar for these methods. The MGIT 960 system has several advantages over the widely used BACTEC 460 system. It is less labor intensive and no radioactive material is involved; moreover, it is safer for laboratory personnel. Although MGIT 960 has been used for anti-tubercular testing, this is the first report of use of MGIT 960 for anti-tubercular susceptibility testing against intracellular M. tuberculosis H37Rv. MGIT 960 is easy, precise and less hazardous for determination of MICs in intracellular model. Thus MGIT 960 system has a good potential and it appears to be a valid alternative to BACTEC 460 radiometric system in the determination of antibacterial activity of various drugs against intracellular TB bacilli in macrophage model. Further studies may be performed using different M. tuberculosis isolates against first-line and second-line anti-TB drugs to evaluate MGIT 960 utility in determination of intracellular MICs. MGIT 960 system appears to be a good alternative/addition to existing methods for carrying out susceptibility testing against intracellular M. tuberculosis.

Acknowledgements

We are grateful to Prof. K. K. Bhutani, Officiating Director, National Institute of Pharmaceutical Education and Research for his help and encouragement. We thank Mr. Vijay Kumar Misra for technical assistance. Mr. Amit Goyal is grateful to CSIR, New Delhi, India for the award of a Senior Research Fellowship. We also acknowledge European Union for the financial support in part, under Indo-EU seventh framework program.

REFERENCES

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    Lönnroth K, Castro KG, Chakaya JM, et al. Tuberculosis control and elimination 2010-50: cure, care, and social development. Lancet. 2010;375:1814-29.
  • 2
    World Health Organization. Global tuberculosis control 2012. Geneva: World Health Organization; 2012.
  • 3
    Parida SK. True facts of TB diagnosis in 2012: hypes and realities. Eur J Microbiol Immunol. 2012;2:275-81.
  • 4
    Aziz MA, Wright A, Laszlo A, et al. Epidemiology of anti- tuberculosis drug resistance (the global project on anti- tuberculosis drug resistance surveillance): an updated analysis. Lancet. 2006;368:2142-54.
  • 5
    Balabanova Y, Ruddy M, Hubb J, et al. Multidrug-resistant tuberculosis in Russia: clinical characteristics, analysis of second-line drug resistance and development of standardized therapy. Eur J Clin Microbiol Infect Dis. 2005;24:136-9.
  • 6
    Toungoussova OS, Mariandyshev AO, Bjune G, Caugant DA, Sandven P. Resistance of multidrug-resistant strains of Mycobacterium tuberculosis from the archangel oblast, Russia, to second-line anti- tuberculosis drugs. Eur J Clin Microbiol Infect Dis. 2005;24:202-6.
  • 7
    Bemer- Melchior P, Bryskier A, Drugeon HB. Comparison of the in vitro activities of rifapentine and rifampicin against Mycobacterium tuberculosis complex. J Antimicrob Chemother. 2000;46:571-6.
  • 8
    Jhamb SS, Singh RP, Singh PP. A comparison of conventional and radiometric method for the assessment of anti- tubercular activity of drugs against Mycobacterium tuberculosis in mice and macrophage models. Indian J Tuberc. 2007;55:70-6.
  • 9
    Rastogi N, Labrousse V, Bryskier A. Intracellular activities of roxithromycin used alone and in association with other drugs against Mycobacterium avium complex in human macrophages. Antimicrob Agents Chemother. 1995;39:976-8.
  • 10
    Dhillon J, Mitchison DA. Activity and penetration of antituberculosis drugs in mouse peritoneal macrophages infected with Mycobacterium microti ov254. Antimicrob Agents Chemother. 1989;33:1255-9.
  • 11
    Duman N, Çevikba A, Johansson C. The effects of rifampicin and fluoroquinolones on tubercle bacilli within human macrophages. Int J Antimicrob Agents. 2004;23:84-7.
  • 12
    Salfinger M, Pfyffer GE. The new diagnostic mycobacteriology laboratory. Eur J Clin Microbiol Infect Dis. 1994;13:961-79.
  • 13
    Adjers-Koskela K, Katila ML. Susceptibility testing with the manual mycobacteria growth indicator tube (MGIT) and the MGIT 960 system provides rapid and reliable verification of multidrug-resistant tuberculosis. J Clin Microbiol. 2003;41:1235-9.
  • 14
    Bemer P, Palicova F, Rusch- Gerdes S, Drugeon HB, Pfyffer GE. Multicenter evaluation of fully automated BACTEC mycobacteria growth indicator tube 960 system for susceptibility testing of Mycobacterium tuberculosis. J Clin Microbiol. 2002;40:150-4.
  • 15
    Huang TS, Tu HZ, Lee SSJ, Huang WK, Liu YC. Antimicrobial susceptibility testing of Mycobacterium tuberculosis to first-line drugs: comparisons of the MGIT 960 and BACTEC 460 systems. Ann Clin Lab Sci. 2002;32:142-7.
  • 16
    Somoskovi A, Kodmon C, Lantos A, et al. Comparison of recoveries of Mycobacterium tuberculosis using the automated BACTEC MGIT 960 system, the BACTEC 460 TB system, and lowenstein-jensen medium. J Clin Microbiol. 2000;38:2395-7.
  • 17
    Kaur S, Kaur H, Singh PP. Induction of colony-stimulating factors by a 30-KDa secretory protein of Mycobacterium tuberculosis H37Rv. Eur Cytokine Netw. 2004;15:327-38.
  • 18
    Hunag TS, Jung Lee SS, Tu HZ, et al. Use of MGIT 960 for rapid quantitative measurement of the susceptibility of Mycobacterium tuberculosis complex to ciprofloxacin and ethionamide. J Antimicrob Chemother. 2004;38:2395-7.
  • 19
    Gangadharam PR, Perumal VK, Podapati NR, Kesavalu L, Iseman MD. In vivo activity of amikacin alone or in combination with clofazimine or rifabutin or both against acute experimental Mycobacterium avium complex infections in beige mice. Antimicrob Agents Chemother. 1988;32:1400-3.
  • 20
    Jagannath C, Reddy MV, Kailasam S, O'Sullivan JF, Gangadharam PR. Chemotherapeutic activity of clofazimine and its analogues against Mycobacterium tuberculosis. In vitro, intracellular, and in vivo studies. Am J Respir Crit Care Med. 1995;151:1083-6.

Publication Dates

  • Publication in this collection
    May-June 2014

History

  • Received
    23 Oct 2013
  • Accepted
    18 Dec 2013
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