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Common causes of treatment mismanagement

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Common causes of treatment mismanagement. Jean-Pierre Zellweger. Swiss Lung Association – PowerPoint PPT presentation

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Title: Common causes of treatment mismanagement


1
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  • 2008 by the author

2
Common causes of treatment mismanagement
  • Jean-Pierre Zellweger
  • Swiss Lung Association

3
What is mismanagement of TB?
4
The  ideal  TB management
  • Symptoms
  • Suspicion of TB
  • Bacteriological confirmation
  • Treatment
  • Cure (Thank you, doctor!)

5
The real-life TB management
  • Symptoms
  • Suspicion of TB
  • Bacteriological confirmation
  • Treatment
  • Cure (Thank you, doctor!)

Wrong diagnosis Delay
6
The real-life TB management
  • Symptoms
  • Suspicion of TB
  • Bacteriological confirmation
  • Treatment
  • Cure (Thank you, doctor!)

Incorrect assessment
7
The real-life TB management
  • Symptoms
  • Suspicion of TB
  • Bacteriological confirmation
  • Treatment
  • Cure (Thank you, doctor!)

Missing drug sensitivity testing
8
The real-life TB management
  • Symptoms
  • Suspicion of TB
  • Bacteriological confirmation
  • Treatment
  • Failure, relapse, MDR/XDR-TB

Inappropriate drug treatment
9
Delayed diagnosis
10
Mean patients and HCWs delay (days) in 42
studies
Mean total diagnostic delay 21 136 days
Patients delay
Storla DG, BMC Public Health 2008815
11
Patients delay
  • Frequency of symptoms before diagnosis
  • Cough 85
  • Sputum 67
  • Fever 65
  • Weight loss 62
  • Fatigue 55
  • Haemoptysis 25
  • Sweating 35

12
Factors associated with delayed health-seeking
behaviour
  • Socioeconomic factors
  • Low access to health care
  • Rural residence
  • Low income, poverty
  • Low education
  • Sociopsychological factors
  • Low-level health care facility
  • Traditional or unqualified practicioner
  • Private practicioner
  • Beliefs about TB
  • Sociodemographic factors
  • Old age
  • Female gender
  • Immigration
  • Illegal residency

13
Doctors delay
  • Factors influencing delay
  • HIV
  • Chronic cough
  • Negative sputum
  • Substance or alcohol abuse
  • Smoking
  • Poor health
  • Coexistent disease
  • Mild symptoms
  • No haemoptysis

14
Delay associated with health-care providers
  • Repeated consultations with incompetent
    healthcare providers
  • Governmental primary health posts
  • Private practicioners with low awareness
  • Unqualified traditional practicioners
  • Overcentralization of govermental TB programme
  • Repeated courses of inappropriate antibiotics

Storla DG, BMC Public Health 2008815
15
Diagnostic deficiencies
  • Misinterpretation of clinical presentation
  • Other diagnosis cancer, pneumonia, smoking, COPD
  • Misinterpretation of chest X-ray
  •  inactive TB 
  • Incorrect interpretation  cancer, abscess
  • TB diagnosis without evidence
  • No bacteriological examination (lymph node
    biopsies, surgical samples!)
  • Diagnosis based on chest X-ray only
  • Culture not available or not requested

16
Inappropriate treatment
  • Single drug treatment of active TB
  • Standard treatment (cat 1) of undetected MDR-TB
  • Ovelooking risk factors for MDR-TB
  • Prior treatment
  • Origin from region with high rate of MDR-TB
  • Addition of a single drug to a failing regimen
  • Insufficient doses
  • Missing doses in intermittent treatment
    (1-weekly)

17
Case 13
  • Woman born in Portugal, 28 years
  • Coughs since 3 weeks
  • CXR
  • Receives moxifloxacine

18
Case 13
  • Woman born in Portugal, 28 years
  • Coughs since 3 weeks
  • CXR
  • Rx moxifloxacine
  • Feels better
  • 2nd CXR after 2 weeks

19
Case 13
  • Woman born in Portugal, 28 years
  • Coughs since 3 weeks
  • CXR
  • Rx moxifloxacine
  • Feels better
  • 2nd CXR after 2 weeks
  • Recurrent symptoms 3 weeks later
  • Smear positive

20
Message 3 errors1. wrong interpretation of
chest X-ray (it was TB, not cavitating
pneumonia!)2. incorrect choice of the
antibiotic (no quinolone for possible TB!)3.
wrong interpretation of the improvement(bacterici
dal effect of moxifloxacin on M.tb)
21
Who has primary MDR-TB?
  • Patients with prior TB treatment (10 times)
  • Foreign-born patients
  • Young patients
  • Males
  • HIV positives

22
Risk factors for MDR-TB in Europea) patients
with previous treatment
Faustini A, Thorax 200661158-63
23
Risk factors for MDR-TB in Europeb) previous
treatment in E and W Europe
24
MDR-TB in immigrants arriving in UK risk factors
ORiordan Ph, PLoS One 2008,3(9)e3173
25
Insufficient follow-up
  • Irregular controls
  • Undetected adverse effects of treatment
  • Erratic changes in treatment schedule due to
    adverse events (replacement of H or R by
    second-line drugs)
  • Undetected negative evolution

26
Uncertain cure
  • End of treatment without documentation of cure

27
Mismanagement and creation of MDR/XDR-TB
28
Mismanagement and creation of MDR/XDR-TB
  • Errors inducing MDR-TB
  • Inappropriate choice of drugs
  • Inappropriate regimen (twice-weekly without
    supervision)
  • Too low doses
  • Malabsorption of drug (low blood levels)

29
Creation of drug resistance effect of drugs on
mycobacteria with different growth speed
Mitchison DA , IJTLD 19982(1)10-15
30
Creation of drug resistance growth speed of
sensitive and resistant mycobacteria
31
Creation of drug resistance regrowth of of
sensitive and resistant mycobacteria
32
Creation of drug resistance impact of lag phase
33
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35
Mismanagement and creation of MDR/XDR-TB
  • Errors inducing MDR-TB
  • Induction of MDR-TB without error under standard
    DOTS strategy
  • Initiation of standard therapy in new patients
    with undetected drug resistance
  • No culture available or requested
  • No DST
  • DST inappropriate
  • DST arriving too late (3-4 months)
  • DST never transmitted to clinician

36
Situation at initiation of treatment
Caminero JA, IJTLD 200812(8)869-77
37
Possible course of treatment
38
Initial resistance to H
39
Initial MDR-TB
40
Outcome of treatment and retreatment in sites
with low MDR-TB prevalence
Gninafon M, IJTLD 20048(19)1242-7
41
Outcome under correct DOTS in sites with high
prevalence of MDR/XDR-TB
  • 1999 (Bakou prisons, Azerbaïjan) all prisoners
    under correct treatment (cat 1, DOT)
  • Mortality during treatment 11
  • Sputum conversion obtained in 42
  • Cure rate 54 (71 in completers)
  • 55 had strains resistant to 2 or more drugs

Coninx R, Lancet 1999353969-73
42
Creation of new MDR/XDR-TB under correct DOTS
  • 2901 new smear pulmonary TB under DOTS in
    Vietnam
  • 125 failures
  • 2nd DST in 40 failure with two positive cultures
    and identical RFLP pattern
  • 17 had MDR-TB at beginning of treatment
  • 15 without MDR at beginning developed MDR under
    DOTS
  • 39 relapses
  • No primary MDR-TB
  • 3 had MDR-TB at relapse

Quy HTW, IJTLD 2003,7(7)631-36
43
Outcome and acquired drug resistance in 1681 new
TB patients in cat 1 DOTS (Tomsk)
Seung KJ, Clin Infect Dis 2004391321-8
44
Acquired drug resistance under DOTS
  • Among 382 new pulmonary TB patients treated by a
    standard DOTS regimen
  • 62 were still smear positive at 2 months (with
    identical strains)
  • 24 had MDR-TB
  • 19/62 identical strains developed new or
    additional drug resistance during treatment
  • 3.5 of patients with DST other than MDR
    developed MDR-TB during treatment

Cox HS, Clin Inf Dis 2007441421-7
45
Amplification of drug resistance in patients
under retreatment
  • 410 patients in Uganda received retreatment for
    TB according to WHO 2HRZES/1HRZE/5HRE
  • 12.5 had MDR-TB at the beginning of retreatment
  • 5.2 developed additional drug resistance during
    retreatment (half of them developed new MDR-TB)
  • Risk of acquired drug resistance was
  • 10.4 for patients with H or R resistance
  • 46.1 for patients with MDR-TB
  • 42.4 for patients still C after 5 months of
    treatment

Temple B, Clin Inf Dis 2008471126-34
46
Outcome by rate of resistance and MDR in 6 sites
in FSU
Bonnet M, IJTLD 20059(10)1147-54
47
Initial drug resistance and treatment failurea)
fully sensitive strains
Lew W, Ann Int Med 2008149123-34
48
Initial drug resistance and treatment failureb)
initial single drug resistance
49
Initial drug resistance and treatment failurec)
polyresistant strains
50
Initial drug resistance and treatment failure
51
Initial drug resistance and treatment
outcome.Duration of R treatment and outcome, by
resistance
52
Initial drug resistance and treatment
failure.Acquired drug resistance
53
Rate of failure in new and retreatment cases, by
local rate of initial MDR-TB (source WHO data)
Mak A, Am J Respir Crit Care Med 2008178306-12
54
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56
Speed of detection of MDR-TB (in immigrants) and
outcome of treatment
ORiordan Ph, PLoS One 2008,3(9)e3173
57
How to treat failure and relapse cases?
  • Low MDR-TB prevalence 2HRZES/1HRZE/5HRE (?)
  • Beware of any risk factor for drug resistance
  • Strict DOT
  • Obtain DST
  • High MDR-TB prevalence
  • Obtain rapid DST
  • Avoid using only first-line drugs as retreatment
    schedule
  • Consider using second-line drugs (injectables and
    quinolones)

58
Conclusions how to avoid creating MDR/XDR-TB?
  • Obtain a bacteriological confirmation whenever
    possible, at least in retreatment cases
  • Obtain DST as soon as possible (consider using
    rapid amplification technology)
  • Search for all possible risk factors for drug
    resistance
  • Initiate appropriate drug treatment
  • Supervise drug intake

59
The curse of MDR/XDR-TB
  •  A mycobacterium for a mycobacterium 
  • Your mycobacterium is my mycobacterium
  • You and your children will be cursed to the
    seventh generation!
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