Download - The role of macrolide in the era of antimicrobial resistance - Professor Susanna Esposito
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THE ROLE OF MACROLIDE IN THE ERA OF ANTIMICROBIAL RESISTANCE
Susanna Esposito
Professor of Pediatrics, University of Milan, Director of the Pediatric Highly Intensive Care Unit, Fondazione IRCCS
Ca’ Granda Ospedale Maggiore Policlinico Milan, Italy
WAidid President (www.waidid.org)
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AGENDA
• CAP etiology
• Emerging antimicrobial resistance
• Combined beta-lactam/macrolide therapy vs beta-
lactam monotherapy in CAP
• Mycoplasma pneumoniae involvement in upper
respiratory tract infections
• Mycoplasma pneumoniae and macrolide resistance
• Practical implications for real life
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PRINCIPAL BACTERIA CAUSING CHILDHOODCAP BY AGE
(From Principi N & Esposito S, Thorax 2011)
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CAP AND ATYPICAL BACTERIA IN 418 CHILDREN
0
10
20
30
40
50
60
70
80
2-4 years 5-7 years > 7 years All
M.p.
C.p.
M.p.+C.p.
All
(From Principi et al., Clin Infect Dis 2001)
%
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Clinical characteristics of the study population at enrollment (Esposito S et al. CID 2002)
Characteristics
Males
Mean age SD, yrs
Onset
Gradual
Acute
Similar illness
within
the family
Cough
Tachypnea
Fever
Rales
Wheezes
Days of hosp. SD
S. pneumoniae
infection (%)
(N=48)
25 (52.1)
3.66 0.899
23 (47.9)
25 (52.1)
6 (12.5)
31 (64.5)
12 (25.0)
42 (91.3)
45 (93.7)
6 (12.5)
6.857 3.523
12.325 6.065
Atypical bacteria
infection (%)
(N=46)
22 (47.8)
3.75 1.030
26 (56.5)
20 (43.5)
9 (19.5)
33 (71.7)
11 (23.9)
39 (84.7)
41 (89.1)
7 (15.2)
6.744 2.672
13.3075.089
Mixed S. pneum.-
atypical bacteria
infection (%) (N=16)
8 (50.0)
3.76 1.030
8 (50.0)
8 (50.0)
3 (18.7)
11 (68.7)
4 (25.0)
14 (87.5)
15 (93.7)
2 (12.5)
7.110 2.370
13.7145.517
No significant differences were observed
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Laboratory data in the various aetiological groups (Esposito S et al. CID 2002)
Parameter
WBC (cells/L)
Neutrophils, %
Lymphocytes,%
Monocytes, %
Eosinophils, %
Basophils, %
CRP (g/dL)
ESR (mm/1h)
S. pneumoniae
infection (%)
(N=48)
16,669 8,831*°
69 17*°
22 15
7 3
1 2
0.3 0.6
109 110*°
57 28
Atypical bacteria
infection (%)
(N=46)
12,5545,404*
59 18*
28 17
8 3
1 1
0.4 0.7
59 88*
47 27
Mixed S.pneum.-
atypical bacteria
infect. (%) (N=16)
13,141 4,540°
63 16°
25 16
7 3
1 2
0.3 0.4
77 79°
52 44
Mean values SD. *p < 0.05 vs *atypical bacteria infection and °mixed
S. pneumoniae-atypical bacteria infection; no other significant differences were
observed. WBC, white blood cell count; CRP, C-reactive protein, ESR,
erythrocyte sedimentation rate
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Comparison of radiographic characteristics of the study population (Esposito S et al. CID 2002)
FindingHyperinflation
Peribronchial wall
thickening
Perihilar linear
opacities
Reticulo-nodular
infiltrate
Segmental or lobar
consolidation
Bilateral
consolidations
Pleural effusion
S. pneumoniae
infection (%)
(N=48)5 (10.4)
3 (6.2)
15 (31.2)
13 (27.1)
18 (37.5)
7 (14.6)
3 (6.2)
Atypical bacteria
infection (%)
(N=46)6 (13.0)
4 (8.7)
20 (43.5)
21 (45.6)
12 (26.1)
4 (8.7)
3 (6.5)
Mixed S.pneum.-
atypical bacteria
infect. (%) (N=16)2 (12.5)
1 (6.2)
9 (56.6)
5 (31.2)
5 (31.2)
2 (12.5)
1 (6.2)
No significant differences were observed
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ANTIBIOTIC TREATMENT OF CAP IN NEONATES AND YOUNGER CHILDREN - I
(From Esposito S et al., Pediatr Infect Dis J 2012)
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ANTIBIOTIC TREATMENT IN OLDER INFANTS
AND CHILDREN (II)(From Esposito S et al., Pediatr Infect Dis J 2012)
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TREATMENT OPTIONS FOR HOSPITALIZED PATIENTS
WITH CAP
(no need for intensive care treatment) (in alphabetical order)
INSIDE HOSPITAL: CAP
• Aminopenicillin macrolide
• Aminopenicillin / ß-lactamaseinhibitor macrolide
• Non-antipseudomonal cephalosporin cefotaxime or ceftriaxone
macrolide
• Levofloxacin
• Moxifloxacin
• Penicillin G macrolide
Woodhead M et al. Clin Microbiol Infect. 2011;17(Suppl 6):E1-E59
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TREATMENT OPTIONS FOR PATIENTS WITH SEVERE
CAP (ICU OR INTERMEDIATE CARE)
INSIDE HOSPITAL: CAP
NO RISK FACTORS FOR P. aeruginosa
• Non-antipseudomonal cephalosporin III + macrolide
or
• Moxifloxacin or levofloxacin ± non-antipseudomonal cephalosporin III
RISK FACTORS FOR P. aeruginosa
• Antipseudomonal cephalosporin or
• Acylureidopenicillin / ß-lactamase inhibitor or
• Carbapenem
(Meropenem preferred, up to 6 g possible, 3x2 in 3hours infusion)
plus
Ciprofloxacin
or plus
Macrolide + aminoglycoside (gentamicin, tobramycin or amikacin)
Woodhead M et al. Clin Microbiol Infect. 2011;17(Suppl 6):E1-E59
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Antibiotic combinations…
• The controversy about the necessity to add a macrolide
to a -lactam continues…
Rodrigo C et al. Thorax. 2013; 68:493-5
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J Antimicrob Chemother 2016
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ANTIMICROBIAL SUSCEPTIBILITY OF STREPTOCOCCUS PNEUMONIAE CAUSING IPD IN THAILAND, 2009-2012
Phongsamart et al., Human Vaccines & Immunother
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Jeevajothi Nathan et al., Med J Malaysia 2014
SUSCEPTIBILITY RATES OF PNEUMOCOCCAL ISOLATES AND MIC VALUES FOR 6 ANTIMICROBIALS IN A MULTI-CENTER
STUDY IN MALAYSIA
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PLOS One, 2016
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MECHANISMS OF S. PNEUMONIAE BETA-LACTAM
RESISTANCE
THE RESISTANCE OF S. PNEUMONIAE TO BETA-LACTAMS IS RELATED TO TARGET-MEDIATED CHANGES IN THE SIZE AND CONFIGURATION OF THE PBPs
S. PNEUMONIAE HAS 5 PBPs: THE LEVEL OF RESISTANCE DEPENDS ON HOW MANY OF PBPs ARE MODIFIED AND TO WHAT EXTENT
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MECHANISMS OF S. PNEUMONIAE BETA-LACTAM
RESISTANCE RESISTANCE TO PENICILLIN G IS MAINLY
CAUSED BY CHANGES IN PBP2b, WHEREAS ALTERATIONS IN PBP2x ARE RELATED TO RESISTANCE TO CEPHALOSPORINS
THE BETA-LACTAMS WHICH HAVE RETAINED A GOOD ACTIVITY ARE AMOXICILLIN, CEFUROXIME AND CEFPODOXIME (ORAL); CEFTRIAXONE, CEFOTAXIME, CEFPIROME AND CEFEPIME (PARENTERAL)
IMIPENEM OR MEROPENEM ARE EVEN MORE ACTIVE THAN CEPHALOSPORINS
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CLINICAL RELEVANCE OFS. PNEUMONIAE BETA-LACTAMS
RESISTANCE
ALL THE BETA-LACTAMS, EVEN THOSE CONSIDERED IN VITRO NOT ACTIVE, WITH USUAL DOSES REACH IN BLOOD AND IN THE EPITHELIAL LINING FLUID CONCENTRATIONS HIGH ENOUGH TO ERADICATE ALL THE INTERMEDIATE AND ALMOST ALL THE RESISTANT STRAINS OF S.PNEUMONIAE
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OUTCOME OF PNEUMONIA IN RELATION TOPENICILLIN RESISTANCE OF S. PNEUMONIAEFrom Friedland JR, PIDJ 1995
0
20
40
60
80
100
PEN-S PEN-R PEN-S PEN-R PEN-S PEN-R
%
resolved improved not improved died
after 2 days after 3 days after 7 days
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MECHANISMS OF STREPTOCOCCUS PNEUMONIAE MACROLIDE
RESISTANCE
ALTERATIONS IN THE RIBOSOMAL TARGET SITE
PRODUCTION OF INACTIVATING ENZYMES
PRODUCTION AND USE OF ACTIVE EFFLUX MECHANISMS
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S. PNEUMONIAE MACROLIDE RESISTANCE: ALTERATION OF
RIBOSOMAL TARGET SITE
THIS MECHANISM IS BASED ON THE PRODUCTION OF RYBOSOMAL METHYLASE, WHICH ALTERS THE RIBOSOMAL TARGET SITE OF MACROLIDES
IT IS CODED FOR BY THE ERMB GENE, DETERMINES HIGH-LEVEL RESISTANCE AND CONFERS BROAD CROSS-RESISTANCE TO MACROLIDES, LINCOSAMIDES AND STREPTOGRAMINS B
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S. PNEUMONIAE MACROLIDE RESISTANCE: EFFLUX MECHANISM
• THIS MECHANISM IS ENCODED BY THE MEFA OR MEFE GENE
• MEF GENES ENCODE A HYDROPHOBIC MEMBRANE PROTEIN THAT USES THE ENERGY OF THE PROTON DRIVING FORCE TO PUMP MACROLIDES OUTSIDE THE CELL
• THE EFFLUX LEADS TO THE M PHENOTYPE, DETERMINES LOW-LEVEL RESISTANCE AND IS SPECIFIC FOR THE 14- AND 15-MEMBERED MACROLIDES
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MACROLIDE MIC IN ERYTHROMYCIN-RESISTANT STREPTOCOCCUS PNEUMONIAE
ERYTHRO-
MYCIN
CLARITHRO-
MYCIN
AZITHRO-
MYCIN
ERM B
MIC 90 >32 >128 >32
RANGE 0.25 to>32 0.25 to >128 1 to >32
MEF E
MIC 90 8 4 8
RANGE 0.5 to >32 0.06-8 0.5 to >32
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Comparison of the clinical outcome of the evaluable children according to the aetiological diagnosis and antimicrobial therapy
(from Esposito S et al. Clin Infect Dis 2003)
Clinical responseTreated with a -lactam
monotherapy
Cure or improvement
Failures
Treated with a -lactam
plus a macrolide
Cure or improvement
Failures
Treated with a macrolide
monotherapy
Cure or improvement
Failures
S. pneumoniae
infection (%)
(N=44)
28 (63.6)
27 (96.4)*^
1 (3.6)*^
9 (20.5)
9 (100.0)
0
7 (15.9)
6 (85.7)
1 (14.3)
Atypical bacteria
infection (%)
(N=42)
21 (50.0)
11 (52.4)*§#
10 (47.6)*§#
7 (16.7)
7 (100.0)§
0§
14 (33.3)
13 (92.9)#
1 (7.1)#
Mixed S.pneum.-
atypical bacteria
infect. (%) (N=15)
5 (33.3)
2 (50.0)^
2 (50.0)^
6 (40.0)
6 (100.0)
0
5 (33.3)
5 (100.0)
0
*p=0.0003 vs atypical bacteria infection, ^ p=0.034 vs mixed S. pneumoniae-atypical bacteria infection, §p=0.030 vs atypical bacteria infection treated with a -lactam plus a macrolide, #p=0.023 vs atypical bacteria infection treated with a macrolide only; no
other significant differences were observed
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Quantitative Mycoplasma pneumoniae cultures of bronchoalveolar lavage (BAL) samples from mice
inoculated with M. pneumoniae
Tagliabue C et al. J Infect Dis. 2008;198:1180-1188
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Adding a macrolide in children?
Ambroggio L et al. J Pediatr. 2012;161:1097-1103
• 20743 patients hospitalized with CAP.
• 24% received beta-lactam and macrolide
combination therapy on admission.
CAP community acquired pneumonia
THE JOURNAL OF PEDIATRICS
Comparative Effectiveness of Empiric Beta Lactam
Monotherapy and beta–Lactam-Macrolide Combination
Therapy in Children Hospitalized with Community-Acquired
PneumoniaLilliam Ambroggio, Jennifer A Taylor, Loni Philip Tabb, Craig J Newschaffer,
Alison A Evans and Samir R Shah
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Ambroggio L et al. J Pediatr. 2012;161:1097-1103
LENGHT OF HOSPITAL STAY ACCORDING TO EMPIRICAL ANTIBIOTIC TREATMENT
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Adding a macrolide in adults?
• 5240 adults hospitalised with CAP from 72
secondary care trusts across England and
Wales.
• The overall 30-day inpatient death rate
was 24.4%.
• Combination therapy was prescribed in
3239 (61.8%) patients.
CAP community acquired pneumonia Rodrigo C et al. Thorax. 2013; 68:493-5
AUDIT, RESEARCH AND GUIDELINE UPDATE
Single versus combination antibiotic therapy in adults
hospitalised with community acquired pneumonia
Chamira Rodrigo, Tricia M Mckeever,
Mark Woodhead, Wei Shen Lim on behalf
of the British Thoracic Society
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Adding a macrolide in adults?
Outcome measures Total (n=5240)β-lactam therapy
(n=2001)β- lactam/
macrolide therapy (n=3239)
Adjusted OR(95% CI)
p Value
30 day IP death rate 1281 (24.4) 536 (26.8) 745 (23.0)0.72 (0.60 to
0.85)*<0.001
ICU admission 419 (8) 136 (6.8) 282 (8.7) 0.94 (0.72 to 1.22) 0.635
Need for MV 151 (2.9) 58 (2.9) 93 (2.9) 0.99 (0.71 to 1.38) 0.508
Need for INS 130 (2.5) 42 (2.1) 88 (2.7) 0.87 (0.55 to 1.38) 0.544
30 day IP death rate stratified by pneumonia severity
Low severity(CURB65=0–1)
201/2247 (8.9) 95/908 (10.5) 106/1339 (7.9) 0.80 (0.56 to 1.16) 0.238
Moderate severity(CURB65=2)
370/1480 (25) 171/561 (30.5) 199/919 (21.7) 0.54 (0.41 to 0.72) <0.001
High severity(CURB65 ≥3)
710/1513 (46.9) 270/532 (50.8) 440/981 (44.9) 0.76 (0.60 to 0.96) 0.025
Rodrigo C et al. Thorax. 2013; 68:493-5
Multivariate analyses of the association between antibiotic therapy and clinical outcomes
IP inpatientMV mechanical ventilationINS intropic supportCURB65 confusion, urea, respiratory rate, blood pressure, age of 65 years or older
Chart recreated
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Effect of macrolide resistance on the presentation and outcome of patients hospitalized for S. pneumoniae
pneumonia
Dual therapy, not including a macrolide (n=33)
Dual therapy including a macrolide (n=71)
P value
Bacteremia, n (%) 17 (52) 36 (51) 0.99
Days of hospital stay, median (IQR)
11 (6–18) 8 (4–13) 0.12
30 days in hospital mortality, n (%)
4 (12) 4 (6) 0.25
ICU admission, n (%) 14 (42) 15 (21) 0.024
Mechanical ventilation, n (%) 0.28
None 22 (81) 57 (86) 0.55
Noninvasive 1 (4) 0 (0) 0.29
Invasive 4 (15) 9 (14) 0.88
Pulmonary complications, n (%) 14 (42) 18 (25) 0.079
Multilobar infiltration 11 (33) 11 (15) 0.038
Pleural effusion 7 (21) 9 (13) 0.26
ARDS 2 (7) 3 (4) 0.61
Acute renal failure, n (%) 11 (33) 25 (36) 0.81
Shock, n (%) 2 (6) 6 (8) 0.67
Outcomes of patients with macrolide-resistant S. pneumoniae pneumonia treated withdual antibiotic regimens that did or did not contain a macrolide
Cilloniz C et al. Am J Respir Crit Care Med. 2015;191(11):1265-72Chart recreated
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Garin N et al. JAMA. 2014;174(12):1894-1901
Original investigation
β – lactam monotherapy vs β – lactam–macrolide combination treatment in moderately severe community-acquired pneumoniaA randomized non-inferiority trialNicolas Garin, Daniel Genné, Sebastian Carballo, Christian Chuard,Gerhardt Eich, Olivier Hugli, Olivier Lamy, Mathieu Nendaz,Pierre-Auguste Petignat, Thomas Perneger, Olivier Rutschmann, Laurent Seravalli, Stephan Harbarth, Arnaud Perrier
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Randomization of patients in the study
300 allocated to monotherapy arm291 treated with initial monotherapy
9 excluded after randomization6 had another diagnosis or no pulmonary infiltrate2 had exclusion criteria1 withdrew his consent
302 allocated to combination therapy arm289 treated with initial combination therapy
13 excluded after randomization7 had another diagnosis or no pulmonary infiltrate5 had exclusion criteria1 withdrew his consent
291 completed 30-day follow-up 289 completed 30-day follow-up
291 included in analysis for the primary end point 289 included in analysis for the primary end point
602 patients randomized
Garin N et al. JAMA Intern Med. 2014;174(12):1894-1901Chart recreated
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Primary and secondary end points
End pointMonotherapy
(n=291)Combination therapy
(n=289)P
value
Primary end point
Patients not reaching clinical stability at day 7 120 (41.2) 97 (33.6) .07
Secondary end points
Intensive care unit admission 12 (4.1) 14 (4.8) .68
Complicated pleural effusion 8 (2.7) 14 (4.8) .19
Length of stay, median (IQR), d 8 (6-13) 8 (6-12) .65
Any change in the initial antibiotic treatment 39 (13.4) 46 (15.8) .39
In-hospital death 8 (2.7) 7 (2.4) .80
30-day death 14 (4.8) 10 (3.4) .42
90-day death 24 (8.2) 20 (6.9) .54
30-day readmission 23 (7.9) 9 (3.1) .01
90-day readmission 47 (16.2) 37 (12.7) .25
New pneumonia within 30 days 10 (3.4) 6 (2.1) .31
Garin N et al. JAMA Intern Med. 2014;174(12):1894-1901Chart recreated
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Hazard ratios for clinical stability in the monotherapy arm vs combination arm
VariableNo. of patients
Hazard ratio(95% CI)
Pvalue
Unadjusted 0.93 (0.76-1.13) .46
Adjusted for age and PSI category 0.92 (0.76-1.12) .41
Stratified
Atypical 31 0.33 (0.13-0.85) .02
Nonatypical 549 0.99 (0.80-1.22) .93
P value for interaction .03
PSI category IV 240 0.81 (0.59-1.10) .18
PSI category I-III 340 1.06 (0.82-1.36) .66
P value for interaction .18
CURB-65 category 2-5 311 0.80 (0.61-1.06) .12
CURB-65 category 0-1 269 1.13 (0.85-1.50) .40
P value for interaction .09
Age, y
<65 150 1.09 (0.75-1.59) .65
≥65 430 0.87 (0.70-1.10) .25
P value for interaction .32
Garin N et al. JAMA Intern Med. 2014;174(12):1894-1901PSI pneumonia severity indexCURB-65 confusion, urea, respiratory rate, blood pressure, age of 65 years or older
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+++
++
++
+++++++ + ++++ ++++ + ++
Proportions of patients not reaching clinical stability
100
90
80
70
60
50
40
30
20
10
0
0 5 10 15 20 25 30
Time, days
Pat
ien
tsn
ot
reac
hin
g cl
inic
al s
tab
ility
, %
MonotherapyCombinationP=.44 (log-rank test)
+
++++
+++++++++++++ ++++++++ ++++ + + ++
Conclusions and relevance: We did not find noninferiority of β-lactam monotherapy in patients hospitalized for moderately severe community-acquired pneumonia. Patients infected with atypical pathogens or with PSI category IV pneumonia had delayed clinical stability with monotherapy.
Garin N et al. JAMA Intern Med. 2014;174(12):1894-1901
PSI pneumonia severity indexIV four
Graph recreated
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Postma DF et al. NEJM, 2015;372:1312-23
The NEW ENGLAND JOURNAL of MEDICINE
ORIGINAL ARTICLE
Antibiotic Treatment Strategies for
Community-Acquired Pneumonia in Adults
Douwe F. Postma, M.D., Cornelis H. van Werkhoven, M.D.,
Leontine J.R. van Elden, M.D., Ph.D., Steven F.T. Thijsen, M.D., Ph.D.,
Andy I.M. Hoepelman, M.D., Ph.D., Jan A.J.W. Kluytmans, M.D., Ph.D.,
Wim G. Boersma, M.D., Ph.D., Clara J. Compaijen, M.D., Eva van der Wall, M.D.,
Jan M. Prins, M.D., Ph.D., Jan J. Oosterheert, M.D., Ph.D., and
Marc J.M. Bonten, M.D., Ph.D., for the CAP-START Study Group*
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90-day mortality2 (0.3%) missing data59 (9.0%) ITT52(8.5%) SA 42(9.0%) AA
90-day mortality1 (0.1%) missing data
78 (8.8%) ITT70(8.5%) SA53(7.4%) AA
90-day mortality1 (0.1%) missing data82 (11.1%) ITT68 (10.5%) SA55 (10.2%) AA
610 (93.0%) SA468 (71.3%) AA142 (21.6%) MD46 (7.0%) NA
823 (92.7%) SA712 (80.2%) AA111 (12.5%) MD65 (7.3%) NA
650 (88.0%) SA538 (72.8%) AA112 (15.2%) MD89 (12.0%) NA
656 - included in study 888 - included in study739 - included in study
993 -assigned to receive beta-lactam
1277 - assigned to receive fluoroquinolone
1055 - assigned to receive beta-lactam-macrolide
3325 patients were eligible
Inclusion of patients, rates of adherence and mortality
Postma DF et al. NEJM. 2015;372:1312-23
ITT intention-to-treat population; SA strategy-adherent populationAA antibiotic-adherent population; MD motivated deviation
NA non-adherent
Chart recreated
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-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
A Intention-to-treat analysis
90% CI95% CI
-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
B Intention-to-treat analysis (radiologically confirmed CAP)
90% CI95% CI
-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
C Strategy-adherent analysis
90% CI95% CI
-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
D Strategy-adherent analysis (radiologically confirmed CAP)
90% CI95% CI
-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
E Antibiotic-adherent analysis
90% CI95% CI
-0.06 -0.04 -0.02 0.00 0.02 0.04 0.06Δ
BLM
FQL
Crude
BLM
FQL
AdjustedRisk difference
Other strategy better Beta-lactam better
F Antibiotic-adherent analysis (radiologically confirmed CAP)
90% CI95% CI
Post
ma
DF
et a
l. N
EJM
.20
15
;37
2:1
31
2-2
3
Ch
art
recr
eate
d
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Limitations
• The population included does not clearly capture unequivocally
patients usually addressed as CAP. Around one quarter did not
have radiological confirmation of CAP
• CAP severity was very low, with a mean CURB-65 of 1, and no
patient exceeding a CURB-65 of 2. Since a CURB-65 of 1 might
result of just an age above 65 years, any severity criteria were
rare in this population, and it is unclear why all of these
patients were hospitalized at all
• So far, an advantage for combination treatment in retrospective
studies has primarily been shown in hospitalized patients with
severe CAP
CAP community-acquired pneumonia Author’s opinion
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DEMOGRAPHIC CHARACTERISTICS OF THE STUDY CHILDREN WITH RECURRENT
RESPIRATORY TRACT INFECTIONS AND HEALTHY CONTROLS
Esposito S et al., PIDJ 2005; 24: 438-444
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DISTRIBUTION OF THE STUDY SUBJECTS ACCORDING TO CLINICAL
DIAGNOSIS
Esposito S et al., PIDJ 2005; 24: 438-444
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SHORT-TERM OUTCOME ACCORDING TO THERAPY IN CHILDREN WITH
RRTIs AND ACUTE RTI
Esposito S et al., PIDJ 2005; 24: 438-444
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LONG-TERM OUTCOME ACCORDING TO THERAPY IN CHILDREN WITH
RRTIs AND ACUTE RTI
Esposito S et al., PIDJ 2005; 24: 438-444
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DEEP RED STUDY – RESULTSMOST FREQUENTLY FOUND MICROBIOLOGICAL
AGENTS IN THE STUDY POPULATION
0
5
10
15
20
25
30
Adenovirus* RSV* M. pneumoniae* S. pyogenes C. pneumoniae*
Patients with pharyngitis Healthy controls
%
*p<0.0001 Esposito S et al., J Med Microbiol 2004
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VARIABLES SIGNIFICANTLY ASSOCIATED WITH THE DIFFERENT AETIOLOGICAL AGENTS
IN THE STUDY PATIENTS
0
20
40
60
80
100
Recurrent episodes of
pharyngitis
Having older sibling(s)
Single virus M. pneumoniae* S. pyogenes C. pneumoniae
Esposito S et al., J Med Microbiol 2004
%
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CLINICAL OUTCOME OF THE STUDY SUBJECTS
Esposito S et al., J Med Microbiol 2004
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DIAGNOSIS OF ATYPICAL BACTERIA
INFECTIONS IN 133 CHILDREN WITH ACUTE
NON-STREPTOCOCCAL PHARYNGITIS
0PCR positive only M. pneumoniae-C. pneumoniae
1 (50.0%)Serology and PCR positive M. pneumoniae-C.
pneumoniae
1 (50.0%)Serology positive only M. pneumoniae-C. pneumoniae
2 (1.5%)M. pneumoniae-C. pneumoniae coinfection
5 (50.0%)Serology and PCR positive
1 (10.0%)PCR positive only
4 (40.0%)Serology positive only
10 (7.5%) C. pneumoniae infection
6 (14.3%)Serology and PCR positive
0PCR positive only
36 (85.7%)Serology positive only
42 (31.6%)M. pneumoniae infection
PATIENTS
(No.=133)
ATYPICAL BACTERIA INFECTION
Esposito S et al., CID 2006
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SHORT-TERM (AFTER 1-MONTH) OUTCOME IN
CHILDREN WITH ACUTE NON-STREPTOCOCCAL
PHARYNGITIS
Outcome Treated with
azithromycin
Treated with
symptomatics
Infected by atypical bacteria 20 34
Cure 20 (100.0%) 31 (91.2%)
Failure 0 3 (8.8%)
Not infected by atypical bacteria 24 55
Cure 22 (91.7%) 51 (92.7%)
Failure 2 (8.3%) 4 (7.3%)
Total 44 89
Cure 42 (95.5%) 82 (92.1%)
Failure 2 (4.5%) 7 (7.9%)
Esposito S et al., CID 2006
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LONG-TERM (AFTER 6 MONTHS) OUTCOME IN
CHILDREN WITH ACUTE NON-STREPTOCOCCAL
PHARYNGITIS
Outcome Treated with
azithromycin
Treated with
symptomatics
Infected by atypical bacteria 20 34
No respiratory recurrences 13 (65.0%)* 9 (26.5%)*^
At least 1 LRTI 3 (15.0)* 21 (61.8)*^
Not infected by atypical bacteria 24 55
No respiratory recurrences 14 (58.3%) 27 (49.1%)^
At least 1 LRTI 1 (4.2) 4 (7.3)^
Total 44 89
No respiratory recurrences 27 (61.4%)* 36 (40.4%)*
At least 1 LRTI 3 (6.8)* 25 (28.1)*
*^p<0.05 Esposito S et al., CID 2006
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MAJOR STUDIES OF THE PREVALENCE OF MACROLIDE-RESISTANT M. PNEUMONIAE IN DIFFERENT
COUNTRIES AND AT DIFFERENT TIMES(From Principi N & Esposito S. J Antimicrob Chemother 2013)
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COMPARISON OF CHILDREN WITH CAP AND MACROLIDE-RESISTANT AND MACROLIDE-SENSITIVE
M. PNEUMONIAE INFECTION (I)(From Cardinale F et al., J Clin Microbiol 2013)
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COMPARISON OF CHILDREN WITH CAP AND MACROLIDE-RESISTANT AND MACROLIDE-SENSITIVE
M. PNEUMONIAE INFECTION (II)(From Cardinale F et al., J Clin Microbiol 2013)
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COMPARISON OF CHILDREN WITH CAP AND MACROLIDE-RESISTANT AND MACROLIDE-SENSITIVE
M. PNEUMONIAE INFECTION (III)(From Cardinale F et al., J Clin Microbiol 2013)
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From Bradley J et al., Pediatr Infect Dis J 2007
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CASE 1 - EP
• 3-year old male child
• GA 35 weeks, BW 2,700 gr
• Hospitalized for RSV bronchiolitis at 4 months of age
• No other problems in the first year of life
• Recurrent episodes of wheezing after the first year of life, always associated with upper respiratory tract involvement
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CASE 1 - EP
• Therapy: inhalatory beta2-agonists
• Outcome: always cure in few days
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CASE 1 - EP
The following examinations were performed:
• total IgE (normal) + skin prick test (negative)
• chest radiography (negative)
• immunologic evaluation (normal)
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CASE 1 – EP7° episode of wheezing
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CASE 1 - EP
After the seventh episode of wheezing:
• Recommended therapy: clarithromycin 15 mg/kg/die in 2 doses for 10 days
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CASE 1 - EP
• Outcome: after 40 days new episode of wheezing, more severe than the previous ones; hospitalization was required and i.v. steroid was used
• Further examinations: allergy was excluded; IgM and IgG to M. pneumoniae>1:100 and >1:400, respectively; IgM and IgG to C. pneumoniae neg. and >1:64, respectively; nasopharyngeal aspirate positive for M. pneumoniae DNA
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CASO 1 - EP
What do you think about:
1. diagnostic hypothesis?2. performed examinations?3. prescribed therapies?4. patient’s outcome and prognosis?
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CASE 1 - EP
• Prescribed therapy: azithromycin 10 mg/kg/die in one dose for 3 days for 3 consecutive weeks
• Outcome: clinical cure in few days and no respiratory recurrences in the following 6 months
• Further examinations: M. pneumoniaeDNA in the nasopharynx absent at the end of therapy as well as after 3 and 6 months
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CASE 2 – SE
• 14-year old female• No relevant diseases in the previous
history• Ten days ago, a history of pharyngitis
treated with symptomatics only• Since 5 days appearance of cough,
dyspnoea, fever (T 40°C) and pain in the chest
• During the visit, dyspnoea/tachypnoea and abnormal chest signs in the medium/low part of both the emithorax (breath reduction with coarse crackles) were observed
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CASE 2 – SE
CHEST RADIOGRAPHY
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CASE 2 – SE
Additional data of our patient:
• Respiratory rate of 36/min• Blood pressure 85/55 mmHg• Temperature 40°C• Heart rate 125/min• Sodium 128 mmol/L• SaO2 88%
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CASE 2 – SELABORATORY DATA
ParameterWBC (cells/L)Neutrophils, %Lymphocytes,%Monocytes, %Eosinophils, %Basophils, %
CRP (g/dL)ESR (mm/1h)
Value18,993
732151
0.211070
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CASE 2 – SE
Performed microbiological investigations:• blood culture• sputum culture• pleural fluid analysis by PCR• urinary antigen test for Legionella
pneumophila and Streptococcus pneumoniae
• search of influenza and RSV by rapid tests on respiratory secretions
• specific serologic response to Mycoplasma pneumoniae and Chlamydophila pneumoniae
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CASE 2 – SE
• Clinical hypothesis: CAP due to S. pneumoniae
• Empiric recommended therapy: i.v. third generation cephalosporin
• Outcome: persistence of fever (T 38°C) as well as CAP signs and symptoms (although less severe) after 72 hours of therapy
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CASE 2 – SE
What do you think about:
1. requirement of hospitalization?
2. performed examinations?
3. prescribed therapies?
4. patient’s outcome?
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CASE 2 – SE
After 72 hours, these were results of microbiological investigations:
• blood culture and sputum positive for Streptococcus pneumoniae
• pleural fluid positive for Mycoplasma pneumoniae DNA
• IgM to M. pneumoniae 1:300, IgG 1:1000
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CASE 2 – SE
• Oral azithromycin 10 mg/kg/day for 3 days was added in the antibiotic regimen
• Fever disappeared in 36 hours and clinical conditions appeared rapidly better
• The patient was discharged after 3 days of the new therapy and had no more respiratory problems
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Azithromycin in pneumonia: When and Why
• From 1 to 3 months of age
• From 5 ys to 18 ys of age
• In combination with beta-lactams in hospitalised children and adults with CAP
Combination therapy reduces mortality and complications both in children and adults, particularly in moderate-severe pneumonia
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ATYPICAL BACTERIA AS CAUSE OF UPPER RESPIRATORY INFECTIONS IN PEDIATRICS
M. pneumoniae can cause upperrespiratory tract infections in children of all the age groups
These infections often occur in childrenwith history of recurrent respiratorytract infections
Treatment with macrolides can solve the acute illness and reduce the risk of new recurrences that can involve also the lower respiratory tract