Top Banner
The Threat and the Challenge of The Threat and the Challenge of MDR-TB MDR-TB . . A Curable Disease with a Proper Clinical and A Curable Disease with a Proper Clinical and Operational Management Operational Management Prof. José A. Prof. José A. Caminero Caminero Luna Luna Department of Pneumonology Department of Pneumonology University Hospital of Gran Canaria “Dr. University Hospital of Gran Canaria “Dr. Negrín” Negrín” Las Palmas de G.C. SPAIN Las Palmas de G.C. SPAIN (The Union) 43rd Union World Conference Malaysia, November 14, 2012
59

The Threat and the Challenge of MDR-TB

Oct 30, 2014

Download

Documents

A curable disease with a proper clinical and operational management.
By Prof. Jose A. Caminero Luna
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Page 1: The Threat and the Challenge of MDR-TB

The Threat and the Challenge of MDR-TBThe Threat and the Challenge of MDR-TB..A Curable Disease with a Proper Clinical and Operational A Curable Disease with a Proper Clinical and Operational

ManagementManagement

Prof. José A. Prof. José A. CamineroCaminero Luna Luna

Department of PneumonologyDepartment of PneumonologyUniversity Hospital of Gran Canaria “Dr. Negrín”University Hospital of Gran Canaria “Dr. Negrín”

Las Palmas de G.C. SPAINLas Palmas de G.C. SPAIN

(The Union)(The Union)

43rd Union World ConferenceMalaysia, November 14, 2012

Page 2: The Threat and the Challenge of MDR-TB

Tuberculosis is certainly the disease that has provoked the most damage (diseases

and deaths) to mankind throughout history. It has caused death and disease for perhaps more than 3

million years and, as a rule, has affected the poorest

strata of society

J.A. Caminero. Eur Respir J 2004, 25: 895J.A. Caminero. Eur Respir J 2004, 25: 895

Page 3: The Threat and the Challenge of MDR-TB

Amenophis IVAmenophis IV

andand

NefertitiNefertiti

(Deceased TB) (Deceased TB)

1360 b. c.1360 b. c.

Page 4: The Threat and the Challenge of MDR-TB

Simón Bolívar (1783-1830)Simón Bolívar (1783-1830)Liberator of the Americas. Died of TB after a long illnessLiberator of the Americas. Died of TB after a long illness

Page 5: The Threat and the Challenge of MDR-TB

Mycobacterium tuberculosisMycobacterium tuberculosis

It is probably the infectious agent that has It is probably the infectious agent that has caused the greatest number of Deaths in caused the greatest number of Deaths in

the History of Humanitythe History of Humanity

Today it is still considered as the 2nd Greatest Murderer, out of all single

Pathogens

Page 6: The Threat and the Challenge of MDR-TB

Fate of TB patients Fate of TB patients Without Without TreatmentTreatment. India 1961-68. India 1961-68

0

10

20

30

40

50

60

Cured Positives Dead

* Grzybowski S, Enarson DA Bull Int Union Tuberc Lung Dis 1978;53(2):70-5.

%%

TB Smear +

TB Smear -

*

*

*

Page 7: The Threat and the Challenge of MDR-TB

Two Genius of the Medicine: Waskman and FlemingTwo Genius of the Medicine: Waskman and Fleming

Page 8: The Threat and the Challenge of MDR-TB

Dr. Selman A. WaksmanDr. Selman A. Waksman

- Discovered STREPTOMYCIN in 1943- Discovered STREPTOMYCIN in 1943- Together with his laboratory assistant A. Schatz - Together with his laboratory assistant A. Schatz

Page 9: The Threat and the Challenge of MDR-TB

Ma Z, Lienhard C. Clin Chest Med 30 (2009) 755–768

Page 10: The Threat and the Challenge of MDR-TB

INH-PAS-SM INH-PAS-SM

Page 11: The Threat and the Challenge of MDR-TB

ANTIMYCOBACTERIAL DRUGSANTIMYCOBACTERIAL DRUGS

1. ISONIAZID1. ISONIAZID 2. RIFAMPICIN2. RIFAMPICIN3. PYRAZINAMIDE3. PYRAZINAMIDE 4. ETHAMBUTOL4. ETHAMBUTOL5. STREPTOMYCIN5. STREPTOMYCIN 6. CAPREOMYCINE6. CAPREOMYCINE7. KANAMYCIN7. KANAMYCIN 8. AMIKACIN8. AMIKACIN9. ETHION. – PROTHIONAMIDE9. ETHION. – PROTHIONAMIDE 10. CYCLOSERINE-TERIZ.10. CYCLOSERINE-TERIZ.11. P.A.S.11. P.A.S. 12. THIACETAZONE12. THIACETAZONE

13. QUINOLONES:13. QUINOLONES: 14. CLOFAZIMIDE14. CLOFAZIMIDE - OFLOXACIN- OFLOXACIN 15. Others:15. Others: - LEVOFLOX. - GATIFLOXACIN - MOXIFLOX- LEVOFLOX. - GATIFLOXACIN - MOXIFLOX - MACROLIDES, CLAVULANATE - MACROLIDES, CLAVULANATE., Etc., Etc

AT LEAST AT LEAST 44 FOR GOOD RETREATMENT! FOR GOOD RETREATMENT!

Page 12: The Threat and the Challenge of MDR-TB

TB TB An An INCURABLEINCURABLE disease ?disease ?

The The ThreatThreat and the and the Fear Fear of of MDR/XDR- TBMDR/XDR- TB

Page 13: The Threat and the Challenge of MDR-TB

“It may affect over 10 million people world-wide…” JAMA (2000)

“MDR Tuberculosis … A global pandemic” BMJ (1998)

“MDR … a time bomb” Am Rev Respir Dis (1985)

The Threat of MDR-TB?

“Once liberated, it will be impossible to control...” WHO publicity (1997)

“More fatal than AIDS” Washington Post (1998)

“It may destabilise Russian society” NDCF (2000)

Page 14: The Threat and the Challenge of MDR-TB

Consequences of MDR/XDR-TB

Poor response to standardised treatment

Long duration of contagiousness

High risk of morbidity and mortality

Individualised treatment more costly

Difficult management --> requires specialized Difficult management --> requires specialized TrainingTraining

Page 15: The Threat and the Challenge of MDR-TB

The global TB situation, 2011 The global TB situation, 2011

Estimated number of cases, 2011

Estimated number of deaths, 2011

990,000*(840,000–1.1 million)

8.7 million(8.3–9.0 million)

630,000 (460,000–790,000)

[of 12m prevalent cases]

All forms of TB

Multidrug-resistant TB

HIV-associated TB 1.1 million (1.0–1.2 million)

430,000(400,000–460,000)

Source: WHO Global Tuberculosis Report 2012

* Excluding deaths attributed to HIV/TB

Page 16: The Threat and the Challenge of MDR-TB

% of MDR among new TB cases (1994-2011 data)

The boundaries and names shown and the designations used on this map do not imply the expression of any opinion whatsoever on the part of the World Health Organization concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. Dotted lines on maps represent approximate border lines for which there may not yet be full agreement. WHO 2012. All rights reserved

Global average 3.7% (2.1 – 5.2%)

Page 17: The Threat and the Challenge of MDR-TB

% of MDR among previously treated TB cases (1994-2011 data)

The boundaries and names shown and the designations used on this map do not imply the expression of any opinion whatsoever on the part of the World Health Organization concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. Dotted lines on maps represent approximate border lines for which there may not yet be full agreement. WHO 2012. All rights reserved

Global average 20% (13 – 26%)

Page 18: The Threat and the Challenge of MDR-TB

- Between November 2009 and December 2010, 156 consecutively diagnosed new and 68 previously treated TB

- MDR-TB was found in 35.3% (95% CI 27.7–42.8) of new patients and 76.5% (95% CI 66.1–86.8) of those previously treated.

- Overall, nearly one in two patients enrolled had MDR-TB.

- Extensively drug-resistant TB was reported in 15 of the 107 MDR-TB patients (14.0%, 95% CI 7.3–20.7).

Page 19: The Threat and the Challenge of MDR-TB

High prevalence of childhood multi-drug resistant tuberculosis in Johannesburg, South Africa: a cross sectional study

Lee Fairlie,Natalie C Beylis, Gary Reubenson, David P Moore,and Shabir A Madhi

BMC Infect Dis. 2011; 11: 28.

-1317 children were treated for TB in 20081317 children were treated for TB in 2008

- DST was performed in 148 (72.5%) of the - DST was performed in 148 (72.5%) of the 204 children who had culture-204 children who had culture-confirmed confirmed tuberculosis.tuberculosis.

- The prevalence of isoniazid-resistance was 14.2% (n = 21) and the prevalence of The prevalence of isoniazid-resistance was 14.2% (n = 21) and the prevalence of MDR-TB MDR-TB 8.8%8.8% (n = 13) (95%CI, 4.8-14.6%). (n = 13) (95%CI, 4.8-14.6%).

- The prevalence of HIV co-infection was The prevalence of HIV co-infection was 52.1%52.1% in children with drug in children with drugsusceptible-TB and 53.9% in children with MDR-TB.susceptible-TB and 53.9% in children with MDR-TB.

- Ten (76.9%) of the 13 children with MDR-TB received appropriate treatment and Ten (76.9%) of the 13 children with MDR-TB received appropriate treatment and four (30.8%) died at a median of 2.8 months (range 0.1-4.0 months) after four (30.8%) died at a median of 2.8 months (range 0.1-4.0 months) after the date of tuberculosis investigation.the date of tuberculosis investigation.

Page 20: The Threat and the Challenge of MDR-TB

Countries (84) reporting ≥1 XDR-TB case by Oct 2012

Page 21: The Threat and the Challenge of MDR-TB

TB TB An An INCURABLEINCURABLE disease ?disease ?

The The ThreatThreat and the and the Fear Fear of of MDR/XDR- TBMDR/XDR- TB

Page 22: The Threat and the Challenge of MDR-TB

The ResistantThe Resistant

M. tuberculosisM. tuberculosis

day by day is moreday by day is more

RESISTANTRESISTANT

Page 23: The Threat and the Challenge of MDR-TB

M tuberculosis M tuberculosis vs vs Human SpecieHuman Specie

The Millennial Fight The Millennial Fight between between 22 SpeciesSpecies

Page 24: The Threat and the Challenge of MDR-TB

Dr. Selman A. WaksmanDr. Selman A. Waksman

- Discovered STREPTOMYCIN in 1943- Discovered STREPTOMYCIN in 1943- Together with his laboratory assistant A. Schatz - Together with his laboratory assistant A. Schatz

Mono Mono - Resistance - Resistance

Page 25: The Threat and the Challenge of MDR-TB

INH-PAS-SM INH-PAS-SM

Poly Poly - Resistance - Resistance

M. TB Resistant to2 or more Drugs

Page 26: The Threat and the Challenge of MDR-TB

RIFAMPICINARIFAMPICINA

Discovered in 1963 by Discovered in 1963 by Lepetit LaboratoriesLepetit Laboratories

MultiMulti–Drug-Resistance –Drug-Resistance ((MDRMDR) )

M. TB Resistant to, at least, H+R

Page 27: The Threat and the Challenge of MDR-TB

CONCLUSSIONSCONCLUSSIONS::

1.1. Only ciprofloxacin, ofloxacin, levofloxacin, sparfloxacin and Only ciprofloxacin, ofloxacin, levofloxacin, sparfloxacin and moxifloxacin have been tested in randomized controlled trials for moxifloxacin have been tested in randomized controlled trials for treating tuberculosis.treating tuberculosis.

2.2. We cannot recommend ciprofloxacin in treating tuberculosis.We cannot recommend ciprofloxacin in treating tuberculosis.3.3. Trials of newer fluoroquinolones for treating tuberculosis are needed Trials of newer fluoroquinolones for treating tuberculosis are needed

and are on-going.and are on-going.4.4. No difference has been demonstrated between sparfloxacin and No difference has been demonstrated between sparfloxacin and

ofloxacin in drug-resistant tuberculosis.ofloxacin in drug-resistant tuberculosis.

ExtensivelyExtensively–Drug-Resistance –Drug-Resistance ((XDRXDR) )

MDR-TB plus Resistance to FQ and 1 SLDI (Kn, Ak, Cm)

Page 28: The Threat and the Challenge of MDR-TB

Ma Z, Lienhard C. Clin Chest Med 30 (2009) 755–768

Already there are TB Cases with Resistance to all these DrugsAlready there are TB Cases with Resistance to all these Drugs

Totally-Drug Resistant (TDR-TB)?Totally-Drug Resistant (TDR-TB)?

Page 29: The Threat and the Challenge of MDR-TB

- In 2007, two patients with strains having resistance to all first and second-line anti-TB drugs which were tested were reported from Italy (1)

- In 2009, 15 TB patients in Iran were reported to be resistant to all anti-TB drugs tested (2)

- In December 2011, clinicians in Mumbai, India, described four patients with “TDR-TB” (3). A few weeks later, the Times of India reported another eight cases in Mumbai.

Totally Drug Resistant (Totally Drug Resistant (T.D.R.T.D.R. – TB) – TB)

1) Migliori GB, et al. Euro Surveill. 2007 May;12(5):E070517.12) Velayati AA, et al. Chest. 2009 Aug;136(2):420–5.3) Udwadia ZF, et al. Clin. Infect. Dis. 2012 Feb 15;54(4):579–81.

Page 30: The Threat and the Challenge of MDR-TB

1.1. Mono-Resistance Mono-Resistance 2.2. Poly-ResistancePoly-Resistance3.3. M.D.R.M.D.R.4.4. X.D.R.X.D.R.5.5. T.D.R.T.D.R. (Totally Resistant TB) (Totally Resistant TB)

The The BattleBattle between the Human Species and M. tuberculosis between the Human Species and M. tuberculosis

Is DR –TB an Incurable Epidemic ?

NotNot always!! With adequate Management it is curable, always!! With adequate Management it is curable, although the possibility of success can decrease although the possibility of success can decrease

notablynotably

Page 31: The Threat and the Challenge of MDR-TB

Ma Z, et al. Lancet 2010; 375: 2100–09

Page 32: The Threat and the Challenge of MDR-TB

Patients with an Patients with an ExtensiveExtensive pattern of pattern of ResistanceResistance has always has always

existed , but with an existed , but with an Adequate Adequate Clinical ManagementClinical Management and and

EnoughEnough ResourcesResources a good Rate a good Rate of of SuccessSuccess is Possible is Possible

Page 33: The Threat and the Challenge of MDR-TB

Possibilities to Possibilities to CureCure MDR/XDR-TB MDR/XDR-TBAvailable EvidenceAvailable Evidence

1.1. HistoricHistoric Evidence (Pre-Rifamp. period) Evidence (Pre-Rifamp. period)

2.2. CurrentCurrent Evidence Evidence

1.1. MDR-TB Patients (2 Meta-analysis)MDR-TB Patients (2 Meta-analysis)2.2. XDR-TB Patients (1 Systematic Rev. and 1 Meta-analysis) XDR-TB Patients (1 Systematic Rev. and 1 Meta-analysis)

Page 34: The Threat and the Challenge of MDR-TB

The MDR/XDR-TB patients of The MDR/XDR-TB patients of 1950-70s1950-70s were those with were those with

Resistance to H+S+PAS (then Resistance to H+S+PAS (then there was not Rif nor Fq)there was not Rif nor Fq)

Page 35: The Threat and the Challenge of MDR-TB

USA. Schwartz Kn-Z-Eth-Cs 6-12 64 57 %JAMA 1962; 181:134

UK. Pines Z-Eth-Cs-Vi-Th 12-24 39 100 %Chest 1962; 53: 163

Morocco. Chicou Kn-Eth-Cs-Vi-P 4-12 31 67,7 %RevTuberc1962;26:867

USA. Kass Kn-Z-Eth-Cs 21-37 98 94,8 %Tubercle1965;46:151-80 E-Cm-Th

Germany. Schütz Eth-Cs-P 6 34 85 %PraxisPneum1964;18:288

Reference Drugs Follow-up (m) Nº Cases Sm Conversion

Pre-RIFPre-RIF and and Pre-Fq Pre-Fq EraEraPatients with Resistance to Patients with Resistance to INH+SMINH+SM treated with treated with only 3 Drugsonly 3 Drugs

Caminero JA. Int J Tuberc Lung Dis 2006, 10: 829-837

Page 36: The Threat and the Challenge of MDR-TB

Hungary. Böszörmenyi Z-Eth-Cs 3 31 51,6 %Tubercle 1965;46:143

USA. Lester Kn-Z-Eth-Cs- 6-60 146 83.5 %AmRevRespirDis1968;97:392-8

Poland. Zierski Z-Eth-Cs 3-9 65 92,4 %Tubercle 1964;45:96

Czechosl. Tousek Z-Eth-Cs 60-84 55 96 %Tubercle 1967;48:27

Spain. March Z-Eth-Cs-Vi-E 6-18 33 93,4 %RevClinEsp1968;109:117

Reference Drugs Follow-up (m) Nº Cases Sm Conversion

Pre-RIFPre-RIF and and Pre-Fq Pre-Fq EraEraPatients with Resistance to Patients with Resistance to INH+SMINH+SM treated with treated with only 3 Drugsonly 3 Drugs

Caminero JA. Int J Tuberc Lung Dis 2006, 10: 829-837

Page 37: The Threat and the Challenge of MDR-TB

Possibilities to Possibilities to CureCure MDR/XDR-TB MDR/XDR-TBAvailable EvidenceAvailable Evidence

1.1. Historic Evidence (Pre-Rifamp. period)Historic Evidence (Pre-Rifamp. period)

2.2. CurrentCurrent Evidence Evidence

1.1. MDR-TB Patients (2 Meta-analysis)MDR-TB Patients (2 Meta-analysis)2.2. XDR-TB Patients (1 Systematic Rev. and 1 Meta-analysis) XDR-TB Patients (1 Systematic Rev. and 1 Meta-analysis)

Page 38: The Threat and the Challenge of MDR-TB

- Systematic search (to December 2008) - Systematic search (to December 2008) 36 met inclusion 36 met inclusion criteria, representing 31 treatment programmes from criteria, representing 31 treatment programmes from

21 Countries21 Countries

- 62% [95% CI 57–67] successful outcomes62% [95% CI 57–67] successful outcomes- 13% [9–17] defaulted13% [9–17] defaulted- 11% [9–13] died11% [9–13] died- 2% [1–4] were transferred out2% [1–4] were transferred out

September 2009

Page 39: The Threat and the Challenge of MDR-TB

- 34 clinical reports (mean 250 patients) met the inclusion criteria.- 34 clinical reports (mean 250 patients) met the inclusion criteria.

- The proportion of patients treated successfully improved when:- The proportion of patients treated successfully improved when:- Treatment duration was - Treatment duration was at least 18 monthsat least 18 months- Patients received - Patients received DOT throughout treatmentDOT throughout treatment

- Studies that combined both factors had significantly higher pooled - Studies that combined both factors had significantly higher pooled success proportions success proportions (69%)(69%) than other studies of treatment than other studies of treatment outcomes outcomes (58%)(58%)

- IndividualizedIndividualized treatment regimens had treatment regimens had higher treatment success (64%)higher treatment success (64%) than than standardized regimens (54%), although the difference was not significantstandardized regimens (54%), although the difference was not significant

- Treatment approaches and study methodologies were heterogeneous across studies.Treatment approaches and study methodologies were heterogeneous across studies.

- Many important variables, including patients’ HIV status, were inconsistently reported - Many important variables, including patients’ HIV status, were inconsistently reported between studies.between studies.

Page 40: The Threat and the Challenge of MDR-TB

- Systematic review and meta-analysis reviewed treatment outcomes for children with MDR-TB.

- Eight studies, which reported outcomes on 315 patients, contributed to the database.

- Average duration of treatment ranged from 6 months to 34 ms.

- The pooled estimate for treatment success (defined as a composite of cure and completion) was 81.7% with death in 5.9%, and default in 6.2% of patients.

- Adverse reactions occurred in 39.1% of the children, the most common of which were nausea and vomiting followed by hearing loss, psychiatric effects and hypothyroidism.

Ettehad D, Schaaf HS, Seddon JA, Cooke GS, Ford N. Treatment outcomes for children with multidrug-resistant

tuberculosis: a systematic review and meta-analysis. Lancet Infect Dis 2012;12:449-56.

MDR-TB Treatment in Children

Page 41: The Threat and the Challenge of MDR-TB

- LongerLonger treatment duration and treatment duration and delayed sputum smear conversiondelayed sputum smear conversion were reported in were reported in most studies among XDR-TB patients.most studies among XDR-TB patients.

- Median time to sputum Median time to sputum SmearSmear conversionconversion ranged 41– 56 days in MDR-TB patients, ranged 41– 56 days in MDR-TB patients, while it ranged 88–110 days in XDR-TB cases.while it ranged 88–110 days in XDR-TB cases.

- The median time to The median time to Culture conversionCulture conversion ranged 58–99 days in MDR-TB cases; it ranged 58–99 days in MDR-TB cases; it was substantially different in XDR-TB patients, ranging 60–195 days.was substantially different in XDR-TB patients, ranging 60–195 days.

Page 42: The Threat and the Challenge of MDR-TB

Sotgiu G. Eur Respir J 2009; 33: 871-881

- Very different Outcomes- Very different Outcomes

Page 43: The Threat and the Challenge of MDR-TB

- 13 observational studies covering 560 patients:- 13 observational studies covering 560 patients:- - 43.7%43.7% (95% CI, 32.8%–54.5%) favorable outcomes (95% CI, 32.8%–54.5%) favorable outcomes- 20.8% (95% CI, 14.2%–27.3%) Died.- 20.8% (95% CI, 14.2%–27.3%) Died.

- Studies in which a higher proportion of patients received a - Studies in which a higher proportion of patients received a later-generation fluoroquinolonelater-generation fluoroquinolone reported a higher reported a higher

proportion of favorable treatment outcomes (p= .012)proportion of favorable treatment outcomes (p= .012)

Page 44: The Threat and the Challenge of MDR-TB

With each 10% increase in With each 10% increase in the proportion of patients the proportion of patients

receiving a later-receiving a later-generation generation

fluoroquinolone, there wasfluoroquinolone, there wasa 4% increase in the a 4% increase in the

proportion of patients with proportion of patients with favorable outcomes.favorable outcomes.

Jacobson et al. CID 2010; 51 (July)

Page 45: The Threat and the Challenge of MDR-TB

Patients with an Patients with an ExtensiveExtensive pattern of pattern of ResistanceResistance has always existed, but with has always existed, but with

Adequate Clinical ManagementAdequate Clinical Management and and Enough Resources Enough Resources a good Rate of a good Rate of

SuccessSuccess is Possible is Possible

The The Clinical ManagementClinical Management of MDR or of MDR or XDR-TB Patients is KeyXDR-TB Patients is Key

Page 46: The Threat and the Challenge of MDR-TB

- There are There are no Clinical Trialsno Clinical Trials comparing different comparing different Regimen and DrugsRegimen and Drugs

- There areThere are only personal only personal experiences and experiences and publications showing very different resultspublications showing very different results

- The most important The most important Recommendations/ GuidelinesRecommendations/ Guidelines have changed in the last decades and have changed in the last decades and are not in agreementare not in agreement

- Currently there are very Currently there are very controversialcontroversial issues, sometimes issues, sometimes with no agreementwith no agreement

MDR/XDR-TB Clinical ManagementMDR/XDR-TB Clinical ManagementMany Many ControversialControversial Issues to Address Issues to Address

Caminero JA. Int J Tuberc Lung Dis 2006, 10: 829-837

Page 47: The Threat and the Challenge of MDR-TB

1. How to approach 1. How to approach DiagnosisDiagnosis of MDR? Reliability of DST of MDR? Reliability of DST

2. How 2. How Many DrugsMany Drugs to Treat MDR-TB ? to Treat MDR-TB ?

3. 3. RationalRational Use of the FLD and SLD Use of the FLD and SLD

5. Role of 5. Role of SurgerySurgery in MDR-TB Treatment in MDR-TB Treatment

MDR/XDR-TB Clinical Management.MDR/XDR-TB Clinical Management.ControversialControversial Issues Issues

4. Length of the 4. Length of the InjectableInjectable (Intensive phase) (Intensive phase)

6. Approach to the Ideal Regime in MDR-TB6. Approach to the Ideal Regime in MDR-TBStandardizedStandardized vs vs IndividualizedIndividualized Regimes Regimes

Caminero JA. Int J Tuberc Lung Dis 2006, 10: 829-837

Page 48: The Threat and the Challenge of MDR-TB

M. tuberculosis Resistance

In TB, drug resistance is always the result of poor case

management of drug sensitive tuberculosis cases

Page 49: The Threat and the Challenge of MDR-TB

The first priority to fight against

MDR/XDT-TB is to strengthen the

NTP with a good management of

the susceptible TB

Page 50: The Threat and the Challenge of MDR-TB

- 37 studies were included. Inappropriate treatment regimens were prescribed in 67% of studies.

- The percentage of patients receiving inappropriate regimens varied between 0.4% and 100%.

- In 19 studies the quality of treatment regimen reporting was low

Page 51: The Threat and the Challenge of MDR-TB

Even for countries with unlimited resources, the time to generate a MDR-TB case is less than the time required to cure it

Page 52: The Threat and the Challenge of MDR-TB

PRIORITIESPRIORITIES in a National in a National Tuberculosis Programme (NTP)Tuberculosis Programme (NTP)

1. To Avoid 1. To Avoid MDR-TBMDR-TB

4. To Avoid 4. To Avoid XDR-TBXDR-TB

Page 53: The Threat and the Challenge of MDR-TB

PRIORITIESPRIORITIES in a National in a National Tuberculosis Programme (NTP)Tuberculosis Programme (NTP)

1. To Avoid 1. To Avoid MDR-TBMDR-TB

4. To Avoid XDR-TB4. To Avoid XDR-TB

Page 54: The Threat and the Challenge of MDR-TB

THE BEST WAY TO THE BEST WAY TO AVOID AVOID MDR-TBMDR-TB (1)(1)

To Give the best To Give the best initial treatment initial treatment when the when the patient presents TB for the first time.patient presents TB for the first time.

2 HRZE / 4 HR2 HRZE / 4 HR- Advisable Advisable DailyDaily, at least in the Intensive Phase, but , at least in the Intensive Phase, but preferable preferable along all along all the treatmentthe treatment

- EMBEMB (or Intensive Phase) along all the treatment if (or Intensive Phase) along all the treatment if Smear +Smear + at the end at the end of the 2º month, or until knowing Susceptibility H+Rof the 2º month, or until knowing Susceptibility H+R

Page 55: The Threat and the Challenge of MDR-TB

Directly Observed Directly Observed TreatmentTreatment is is

fundamental to fundamental to prevent prevent Resistance Resistance

emergence emergence

THE BEST WAY TO THE BEST WAY TO AVOID AVOID MDR-TBMDR-TB (2)(2)

Page 56: The Threat and the Challenge of MDR-TB

PRIORITIESPRIORITIES in a National in a National Tuberculosis Programme (NTP)Tuberculosis Programme (NTP)

1. To Avoid MDR-TB1. To Avoid MDR-TB

4. To Avoid 4. To Avoid XDR-TBXDR-TB

Page 57: The Threat and the Challenge of MDR-TB

THE BEST WAY TO THE BEST WAY TO AVOID AVOID XDR-TBXDR-TB (1)(1)

- Selection of the Selection of the Best SLD Regimen Best SLD Regimen according the according the Classification of the MDR-TB Classification of the MDR-TB (New, never receiving previously (New, never receiving previously SLD and receiving previously SLD)SLD and receiving previously SLD)

- To support in the selection of this Regimen is essential To support in the selection of this Regimen is essential to know the possible to know the possible Resistance to Fq+SLDI Resistance to Fq+SLDI in MDR-TBin MDR-TB

- SurveillanceSurveillance to address the best SLD Regimen to address the best SLD Regimen- Genotype SLD Genotype SLD in all the MDR-TB patients previous to start in all the MDR-TB patients previous to start

the SLD Regimen the SLD Regimen

Page 58: The Threat and the Challenge of MDR-TB

Directly Observed Directly Observed TreatmentTreatment is is

fundamental to fundamental to prevent prevent Resistance Resistance

emergence emergence

THE BEST WAY TO THE BEST WAY TO AVOID XDR-TB AVOID XDR-TB (2)(2)

Page 59: The Threat and the Challenge of MDR-TB

Conclusions

1. MDR/XDR-TB is a global threat and a world challenge

2. With adequate clinical and operational management, all the TB

cases has a chance to be cured, even those with very extensive

pattern of resistance

3. The first priority to fight against MDR/XDT-TB is to strengthen

the NTP with a good management of the susceptible TB