Clinical and operational value of the extensively drug-resistant tuberculosis definition

doi:10.1183/09031936.00077307

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Clinical and operational value of the extensively drug-resistant tuberculosis definition

G. B. Migliori¹, G. Besozzi², E. Girardi³, K. Kliiman⁴, C. Lange⁵, O. S. Toungoussova⁶, G. Ferrara⁷, D. M. Cirillo⁸, A. Gori⁹, A. Matteelli¹⁰, A. Spanevello⁶, L. R. Codecasa¹¹, M. C. Raviglione¹² SMIRA/TBNET Study Group

¹ WHO Collaborating Centre for TB and Lung Diseases, Fondazione S. Maugeri, Care and Research Institute, Tradate, ² E. Morelli Hospital, Reference Hospital for MDR and HIV TB, Sondalo, ³ National Institute for Infectious Diseases L. Spallanzani, Rome, ⁶ Fondazione S. Maugeri, Care and Research Institute, Cassano delle Murge, ⁷ University of Perugia, Internal Medicine, Section of Respiratory Diseases, Perugia, ⁸ Supranational Reference Laboratory, S. Raffaele Institute, ⁹ San Paolo Hospital, University of Milan, and ¹¹ TB Reference Centre, Villa Marelli Institute, Niguarda Hospital, Milan, and ¹⁰ University of Brescia, Brescia, Italy., ⁴ University of Tartu, Tartu, Estonia., ⁵ Division of Clinical Infectious Diseases, Medical Clinic, Research Center Borstel, Borstel, Germany. ¹² Stop TB Dept, World Health Organization, Geneva, Switzerland.

CORRESPONDENCE: G. B. Migliori, WHO Collaborating Centre for TB and Lung Diseases, Fondazione S. Maugeri, Care and Research Institute, via Roncaccio 16, 21049, Tradate, Italy. Fax: 39 331829402. E-mail: gbmigliori{at}fsm.it

Keywords: Clinical value, drug resistance, extensively drug-resistant tuberculosis, multidrug-resistant tuberculosis, tuberculosis

Received: June 25, 2007
Accepted July 23, 2007

ABSTRACT

TOP
ABSTRACT
METHODS
RESULTS
DISCUSSION
ACKNOWLEDGEMENTS
REFERENCES

Currently, no information is available on the effect of resistance/susceptibilityto first-line drugs different from isoniazid and rifampicinin determining the outcome of extensively drug-resistant tuberculosis(XDR-TB) patients, and whether being XDR-TB is a more accurateindicator of poor clinical outcome than being resistant to allfirst-line anti-tuberculosis (TB) drugs.

To investigate this issue, a large series of multidrug-resistantTB (MDR-TB) and XDR-TB cases diagnosed in Estonia, Germany,Italy and the Russian Federation during the period 1999–2006were analysed. Drug-susceptibility testing for first- and second-lineanti-TB drugs, quality assurance and treatment delivery wasperformed according to World Health Organization recommendationsin all study sites.

Out of 4,583 culture-positive TB cases analysed, 361 (7.9%)were MDR and 64 (1.4%) were XDR. XDR-TB cases had a relativerisk (RR) of 1.58 to have an unfavourable outcome compared withMDR-TB cases resistant to all first-line drugs (isoniazid, rifampicinethambutol, streptomycin and, when tested, pyrazinamide), andan RR of 2.61 compared with "other" MDR-TB cases (those susceptibleto at least one first-line anti-TB drug among ethambutol, pyrazinamideand streptomycin, regardless of resistance to the second-linedrugs not defining XDR-TB).

The emergence of extensively drug-resistant tuberculosis confirmsthat problems in tuberculosis management are still present inEurope. While waiting for new tools which will facilitate managementof extensively drug-resistant tuberculosis, accessibility toquality diagnostic and treatment services should be urgentlyensured and adequate public health policies should be rapidlyimplemented to prevent further development of drug resistance.

Extensively drug-resistant tuberculosis (XDR-TB) is definedas resistance to at least rifampin (R) and isoniazid (H; thisis the definition of multidrug-resistant tuberculosis (MDR-TB)),in addition to any fluoroquinolone, and at least one of thethree injectable anti-tuberculosis (TB) drugs (capreomycin,kanamycin and amikacin). The XDR-TB definition was made on theassumption that these classes of drugs are essential to successfullytreat a case of TB, although evidence of its clinical relevancewas not available at the time 1–4.

In a preliminary analysis of European patients, the currentauthors recently demonstrated higher probability of death andworse outcomes in XDR-TB cases when compared with MDR-TB cases5.

Previous studies demonstrated that among MDR-TB cases the probabilityof achieving treatment success varies, depending on the numberof first-line drugs the patient is susceptible to 6. However,it is not known whether XDR-TB is a more accurate indicatorof poor clinical outcome than being resistant to all first-lineanti-TB drugs 6. In fact, there is no information availableon the effect of resistance/susceptibility to first-line drugsdifferent from HR in determining the outcome of XDR-TB patients.To investigate this issue a larger series of MDR-TB and XDR-TBcases diagnosed in Western and Eastern European countries wasanalysed.

METHODS

TOP
ABSTRACT
METHODS
RESULTS
DISCUSSION
ACKNOWLEDGEMENTS
REFERENCES

Data from all culture confirmed TB cases diagnosed consecutivelyby the TB clinical reference centres in Estonia (Tallin andTartu), Germany (Borstel, Grosshansdorf and Bad-Lippspringe),Italy (Sondalo, Milan and Rome) and a North-Eastern region ofthe Russian Federation (Archangels Oblast) were analysed.

Clinical outcomes (available on the original clinical records)were measured as part of an ad hoc study performed in the previouslymentioned countries during the period 1999–2006 (Italyand Germany: 2003–2006; Estonia: 2001–2004; ArchangelsOblast: 1999–2001) 5, 7, 8. Drug-susceptibility testing(DST) for first- and second-line anti-TB drugs was performedaccording to World Health Organization (WHO) recommendationsby quality-assured laboratories and was re-tested at the WHO’sSupranational Reference Laboratories (Rome/Milan, Borstel, Stockolmand Oslo) 9, 10. In Italy, Germany and Estonia the BACTEC^TMMGIT 960^TM TB System (Becton Dickinson Diagnostic Systems, Sparks,MD, USA) was used to test first-line drugs and the proportionmethod on Lowenstein–Jensen was used to test second-linedrugs in all centres. In Archangels Oblast the proportion methodon Lowestein–Jensen medium was used. In Oslo, DST forboth first- and second-line drugs was carried out using theBACTEC 460 TB System (Becton Dickinson Diagnostic Systems).

In all countries, regimens to treat MDR-TB and XDR-TB caseswere tailored to the DST results according to WHO recommendations,the main categories of second-line drugs being generally availableto treat patients during the study period (injectable agents:amikacin, capreomycin and kanamycin; fluoroquinolones; second-lineoral agents: ethionamide/prothionamide; para-aminosalycilicacid and cycloserine). Third-line agents (e.g. amoxicillin/clavulanicacid,clarithromycin, clofazimine) were not available in ArchangelsOblast.

MDR-TB cases resistant to all first-line drugs were definedas those resistant to H, R, ethambutol, streptomycin and, whentested, pyrazinamide. Other MDR-TB cases were those susceptibleto at least one first-line anti-TB drug among ethambutol, pyrazinamideand streptomycin (regardless of resistance to the second-linedrugs not defining XDR-TB).

Outcomes were compared using the Chi-squared test (categoricalvariables) in cases achieving a final outcome (different fromdefault, transferred out and still on treatment), and usingthe Kaplan–Meier curve where appropriate.

RESULTS

TOP
ABSTRACT
METHODS
RESULTS
DISCUSSION
ACKNOWLEDGEMENTS
REFERENCES

Out of 4,583 culture-positive TB cases analysed (Italy: 2,140;Germany: 748; Estonia: 900; Archangels Oblast: 795), 361 (7.9%)were MDR (Italy: 83; Germany: 43; Estonia: 194; Archangels Oblast:41) and 64 (1.4%) were XDR (Italy: 8; Germany: 3; Estonia: 53;Archangels Oblast: 0). In Italy, 1.46% of all the notified culture-positivecases were MDR (4.2% in the present study); in Germany, 2.1%of culture-positive cases were MDR (6.1% in the present study);in Estonia they were 27.4% and in Archangels Oblast 5.2%, asall cases were included in the study. In total, 178 (49.3%)out of 361 MDR-TB cases and 48 (75%) out of 64 XDR-TB caseswere re-treatment cases (p<0.001). Out of 341 MDR-TB casestested for HIV, 17 (5%) were HIV infected, as were two (3.2%)out of the 61 XDR-TB cases. Out of 361 MDR-TB cases, 267 (74%)were resistant to all first-line drugs, 51 (14.1%) were resistantto H, R and streptomycin, 19 (5.3%) to H, R and ethambutol,and 24 (6.6%) to HR.

Out of 64 XDR-TB cases, none were resistant to HR only, onecase was resistant to fluoroquinolone and one was resistantto injectable drugs. A total of 58 (90.6%) were resistant toall first-line drugs, (plus, eventually, other second-line drugs)and 6 (9.4%) were resistant to HR plus ethambutol or streptomicinand/or other second-line drugs.

Included in the outcome analysis were 240 MDR-TB cases (187were resistant to all first-line drugs) and 48 XDR-TB casesachieving a final outcome.

XDR-TB cases were more likely to be resistant to all first-linedrugs than MDR-TB cases (p<0.005). The cases excluded fromthe analysis were equally distributed among groups. Patientsstill receiving treatment were as follows. XDR-TB: eight outof 64; MDR-TB resistant to all first-line drugs: 38 out of 267;other MDR: 31 out of 94. Patients who defaulted/transferredout were as follows. XDR-TB: eight out of 64; MDR-TB resistantto all first-line drugs: 42 out of 267; other MDR: 10 out of64.

No difference in the profile of drug resistance for second-linedrugs was found among the groups analysed, excluding the XDR-definingsecond-line drugs (XDR-TB: mean 1.3, median 1; MDR-TB resistantto all first-line drugs: mean 1.3, median 1; other MDR-TB: mean0.8, median 1). Details on outcomes by resistance pattern aresummarised in table 1.

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Table 1— Outcomes of extensively drug-resistant tuberculosis (XDR-TB) and multidrug-resistant tuberculosis (MDR-TB) cases in Estonia, Germany, Italy and the Russian Federation

At the univariate analysis, XDR-TB cases had significantly worseoutcomes than MDR-TB cases resistant to all first-line drugsand other MDR-TB cases.

XDR-TB cases had a relative risk (RR) of 1.58 to have an unfavourableoutcome compared with MDR-TB cases resistant to all first-linedrugs (95% confidence interval (CI) 1.14–2.20, 26 outof 48 versus 64 out of 187; p<0.05) and an RR of 2.61 (95%CI 1.45–4.69, 26 out of 48 versus 11 out of 53; p<0.001)compared with other MDR-TB cases.

MDR-TB cases resistant to all first-line drugs were more likelyto have an unfavourable outcome than other MDR-TB cases (deathor failure: 64 out of 187 versus 11 out of 53, RR 1.65, 95%CI 0.94–2.89), although the difference was not significantat the conventional p 0.05 level (p = 0.06). The differencewas statistically significant if patients still on treatmentwere not removed from the analysis (64 out of 225 versus 11out of 84; p<0.01). This analysis is performed under theassumption that the patients still on regular treatment willachieve a successful treatment outcome. If the opposite is assumed,i.e. that all patients still on treatment achieve an unsuccessfultreatment outcome, no greater statistically significant differenceis detected between the two groups. The difference in treatmentoutcomes among the three groups also remains significant afteradjusting for age and country of diagnosis.

Using the Kaplan–Meier analysis, the time to treatmentsuccess is significantly different among the three groups, withthe lowest rate of treatment success in the XDR-TB group (p<0.005;fig 1).

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Fig. 1— A Kaplan–Meier plot showing estimated proportion of treatment success (cure plus treatment completion) according to the drug-resistance profile in Estonia, Germany, Italy and the Russian Federation. ········: other mutidrug-resistant tuberculosis (MDR-TB) cases; - - - - -: MDR-TB cases resistant to all first-line drugs; –––––: extensively drug-resistant tuberculosis cases.

	DISCUSSION

TOP ABSTRACT METHODS RESULTS DISCUSSION ACKNOWLEDGEMENTS REFERENCES

This is the first study to show in a large cohort from fourEuropean countries, at low HIV prevalence, that XDR-TB caseshave a clinical outcome worse than MDR-TB cases resistant toall first-line anti-TB drugs, and that susceptibility to oneor more first-line drugs increases the probability to treatsuccessfully MDR-TB cases. The results also demonstrate thepossible existence of a "continuum" of severity in terms ofclinical outcome among XDR-TB, MDR-TB resistant to all first-linedrugs and other MDR-TB cases.

The results of the current study, which are consistent withthose of a recently performed laboratory-based survey 8, showthe following. 1) XDR-TB cases with a resistance pattern strictlycorresponding to the definition (e.g. H, R, one fluoroquinoloneand one injectable drug) are not frequently identified in theclinical practice, as second-line drugs are introduced whendrug resistance to all first-line drugs is likely to have occurred.2) The occurrence of XDR-TB, as currently defined, has botha clinical value (predicting poor outcome) and an operationalsignificance (confirming the loss of first-line drugs coupledwith key second-line drugs).

Limitations of the study include the following. First, the observationthat data are representative in only two of the settings surveyed(Estonia and Archangels Oblast). In Italy and Germany the prevalenceof MDR-TB in TB clinical reference centres is higher than theprevalence detected at national level.

Secondly, since 16.4% of patients were lost to follow-up, theiroutcome is not well characterised. Thirdly, the difference inoutcomes between MDR-TB resistant to all first-line drugs versusother MDR-TB cases reached only borderline significance underthe assumption that patients still receiving regular treatmentwill reach a successful outcome. In the current authors’opinion this assumption is more likely to represent the truththan the opposite, i.e. that all patients still on treatmentwill have an unsuccessful outcome. Due to the difficulty inraising large numbers on a relatively uncommon form of disease,such as MDR-TB/XDR-TB, global studies will be necessary to givea final answer to this question.

Finally, although DST for second-line drugs in the present studywere quality controlled by WHO Supranational Reference Laboratories,some caution is always needed when interpreting results in relationto XDR-TB. Although protocols to standardise DST for second-linedrugs are presently being developed, universally accepted proficiencytesting does not exist.

The fact that the results from Italy and Germany 5 remain consistentafter including data from Eastern European countries suggeststhat the study results are robust. The negative impact of TBtreatment mismanagement (and suboptimal infection control incongregate settings) 5, 11 in selecting resistant mutants inEurope is further confirmed by the observation that 75 and 49.3%of XDR-TB and MDR-TB cases, respectively, were previously treatedfor TB.

Further information on extensively drug-resistant tuberculosiswill hopefully be available in the next few years when surveillancesystems will be equipped to identify all the existing extensivelydrug-resistant tuberculosis cases and to monitor their riskfactors and outcomes 11. At the same time, the emergence ofextensively drug-resistant tuberculosis confirms that problemsin tuberculosis management are still present in Europe. Whilewaiting for new tools that will facilitate the management ofextensively drug-resistant tuberculosis, accessibility to qualitydiagnostic and treatment services should be urgently ensuredand adequate public health policies should be rapidly implementedto prevent further development of drug resistance.

ACKNOWLEDGEMENTS

TOP
ABSTRACT
METHODS
RESULTS
DISCUSSION
ACKNOWLEDGEMENTS
REFERENCES

Members of the Multicentre Italian Study on Resistance to Anti-tuberculosisdrugs (SMIRA)/ TuBerculosis Network in Europe Trialsgroup (TBNET)are: J. Ortmann (Bad Lippspringe Hospital, Bad Lippspringe,Germany), D. Kirsten (Großhansdorf Hospital, Großhansdorf,Germany), S. Ruesch-Gerdes (Supranational Reference Laboratory,Borstel, Germany), F. Piana (S. Raffaele Hospital, Milan, Italy),M. Ferrarese (Villa Marelli Institute, Milan, Italy), G. DeIaco (Sondalo Hospital, Sondalo, Italy), S. De Lorenzo (SondaloHospital), P. Troupioti (Sondalo Hospital), L. Fattorini (SupranationalReference Laboratory/Superior Institute of Health, Rome, Italy),E. Iona (Supranational Reference Laboratory/Superior Instituteof Health), A. Gualano (INMI L. Spallanzani, Rome, Italy), P.De Mori (INMI L. Spallanzani), R. Centis (WHO CollaboratingCentre for TB and Lung Disease, Fondazione S. Maugeri, Careand Research Institute, Tradate, Italy), M. Danilovits (Universityof Tartu, Tartu, Estonia), V. Hollo (University of Tartu) andA. Mariandyshev (Northern State Medical University, Archangels,Russia).

REFERENCES

TOP
ABSTRACT
METHODS
RESULTS
DISCUSSION
ACKNOWLEDGEMENTS
REFERENCES

Extensively drug-resistant tuberculosis (XDR-TB): recommendations for prevention and control. Weekly Epidemiol Rec 2006;81:430–432.[Medline] [Order article via Infotrieve]
Centers for Disease Control and Prevention (CDC). Emergence of Mycobacterium tuberculosis with extensive resistance to second-line drugs — worldwide, 2002–2004. MMWR Morb Mortal Wkly Rep 2006;55:301–305.[Medline] [Order article via Infotrieve]
Gandhi NR, Moll A, Sturm AW, et al. Extensively drug-resistant tuberculosis as a cause of death in patients co-infected with tuberculosis and HIV in a rural area of South Africa. Lancet 2006;368:1575–1580.[CrossRef][Web of Science][Medline] [Order article via Infotrieve]
Migliori GB, Loddenkemper R, Blasi F, Raviglione MC. 125 years after Robert Koch's discovery of the tubercle bacillus: the new XDR-TB threat. Is "science" enough to tackle the epidemic?. Eur Respir J 2007;29:423–427.[Free Full Text]
Migliori GB, Ortmann J, Girardi E, et al. Extensively drug-resistant tuberculosis, Italy and Germany. Emerging Infectious Diseases. www.cdc.gov/EID/content/13/5/780.htm. Date last updated: June 25, 2007. Date last accessed: June. 25:2007
Espinal MA, Kim SJ, Suarez PG, et al. Standard short-course chemotherapy for drug-resistant tuberculosis. Treatment outcomes in 6 countries. JAMA 2000;283:2537–2545.[Abstract/Free Full Text]
Kliiman K. Centis, R, Migliori GB, et al. Evaluation of DOTS-Plus in Estonia. Int J Tuberc Lung Dis 2005;9: Suppl. 1 S133
Toungoussova OS, Nizovtseva NI, Mariandyshev AO, Caugant DA, Sandven P, Bjune G. Impact of drug-resistant Mycobacterium tuberculosis on treatment outcome of culture-positive cases of tuberculosis in the Archangel Oblast, Russia, in 1999. Eur J Clin Microbiol Infect Dis 2004;23:174–179.[CrossRef][Web of Science][Medline] [Order article via Infotrieve]
Laszlo A, Rahman M, Espinal M, Raviglione M. the WHO/IUATLD Network of Supranational Reference Laboratories. Quality assurance programme for drug susceptibility testing of Mycobacterium tuberculosis in the WHO/IUATLD Supranational Reference Laboratory Network: five rounds of proficiency testing, 1994–1998. Int J Tuberc Lung Dis 2002;6:748–756.[Web of Science][Medline] [Order article via Infotrieve]
Shah NS, Wright A, Bai G-H, et al. Worldwide emergence of extensively drug-resistant tuberculosis. Emerg Infect Dis 2007;13:380–387.[Web of Science][Medline] [Order article via Infotrieve]
Centers for Disease Control and Prevention (CDC). Extensively drug-resistant tuberculosis. United States, 1993–2006. MMWR Morb Mortal Wkly Rep 2007;56:250–253.[Medline] [Order article via Infotrieve]

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