Post on 02-Apr-2015
Antibacterial policy and microflora in NICU
Mari-Liis Ilmoja
Tallinn Children`s Hospital
Birthweight
(g)
Incidence(Neonatal Research Network)
Incidence
Tallinn Children`s Hospital
2005
400 - 500 43%
54%
501 - 750 43%
751 - 1000 28%
1001 - 1250
15%
14%1251 - 1500
7%
Pediatrics 2002; 110:285-291
VLBW infants and LONS
LONS in VLBW premature newborns
CONS
Candida spp.
Enterococcus spp.
Staph. aureus
Str. agalactiae
Pseudomonas spp.
Klebsiella spp.
Enterobacter spp.
E.coli
muu
Karlowicz, M. G. et al. Pediatrics 2000Isaacs, D. Arch Dis Child Fetal Neonatal Ed 2003
80 %MR
LONS in the NICU of Tallinn Children`s Hospital in 2005
7%7%
11%
75%
CONS
Acinetobacter
Klebsiella spp.
Enterobacter spp.
M.-L. Ilmoja 2006
N=28
Susceptibility of VLBW Infants to infections
• Epidermal and epithelial barriers
• Intact endothelial tissues
• Gastrointestinal mucosa
• Microflora
• Complement, Cytokines
• Neutrophils, Monocytes
• T-cells,B-cells, antibodies
• Immature skin • Humidification moist skin that favors the growth of microorganizms• Enhanced adherence of bacteria to epithelial cells• Colonization of ET and NG tubes• Trauma from endotracheal and
nasopharyngeal suctioning• Immature peristalsis and reduced absorption,
favoring micoorganism overgrowth• Competitive bacterial microflora diminished by
broad-spectrum antibiotics
Antibiotics?!
Intrapartum antibiotic prophylaxis?
• GBS sepsis : 5,9 1,7 per 1,000
• E.coli sepsis : 3,2 6,8 per 1,000
Neonatal Research Network, 1991-1993 and 1998-2000
Baltimore, R. S. et al. Pediatrics 2001;108:1094-1098
Susceptibility of E.coli to Ampicillin
Antibiotics?! Intrapartum antibiotic prophylaxis?
Dinsmoor M et al; Obstetrics and Gynecology 2005
Effects of IP Penicillin Prophylaxis on Intestinal Bacterial Colonization in Infants
No (%) of colonized infantsOrganism Non-antibiotic exposed Antibiotic exposed Pvalue
Enterobacteria 16 (64) 13 (52) 0,58Amoxicillin-resistant 12 (75) 10 (77) 0,79EnterobacteriaEnterococci 17 (68) 15 (60) 0,73Staphylococci 22 (88) 21 (84) 1Bacteroides 7 (28) 13 (52) 0,15Clostridium 10 (40) 3 (12) 0,04Bifidobacterium 12 (48) 6 (24) 0,18
Jaureguy F et al.; JCM 2004
Antibiotic combination?!
• Treatment of suspected maternofetal infection with a combination of Amoxicillin + Cefotaxime + Netilmycin resulted in rapid growth of staphyococci and Candida spp.
• Babies , treated with Amoxicillin and Netilmicin , were colonized with Klebsiella oxytoca and E. coli.
Bonnemaison E; Biol of Neon 2003
De Man P et al, The Lancet 2000
Clark, R. H. et al. Pediatrics 2006
For patients receiving ampicillin, the concurrent use of Cefotaxime during the3 first days after birth might be associated with an increased risk of death, compared with the concurrent use of gentamicin.
VLBW (n=1338); colonization with Candida in 20-60% infants
0% 20% 40% 60% 80% 100%
Pappu-Katikaneni 1991
Rowen 1992
Saiman 1995
Huang 1996
Kicklighter 1999
Kaufman 2000
Huang 2004
C. albicans C. parapsilosis C. tropicalis C. glabrata muu
(D Kaufman et al. Clin Microbiol Rev 2004; 17:638-680; YC Huang J Hosp Inf 2004; 58:200-203)
Colonization with Candida
0
10
20
30
40
50
%
<1000g 1000-1499g term
birthweight
GI tract skin trachea UTI
(L Saiman et al. Pediatr Infect Dis J 2001; 20:1119-1124; D Kaufman et al. Clin Microbiol Rev 2004; 17:638-680)
Antibiotic cycling or mixing?!
• A monthly rotation of Gentamicin,Piperacillin-tazobactam and Ceftazidime.
• Rotation of parenteralantibiotics has no detectable effect in decreasing the resistant Gram neg bacilli in a tertiary NICU
Toltzis P et al; Pediatrics 2002
Antibiotic cycling or mixing?!
• Antibiotic prescription patterns balancing the use of different antimicrobials should be promoted to reduce the selection pressure that aids the development of resistance.
Sandiumenge A et al; J of Antimicrobial Chemotherapy 2006
Somebody to blame for?
Colonization with
resistant Gram-positive
organisms
did not increase
with length of training
Baker K, Clin Pediatrics, 2006
Tallinn Children`s Hospital: September 2003 - strict antibiotic
policy
• accurate diagnosis
• choice of antibiotic
• length of course
• Aim of the study :
to evaluate the results of antibiotic policy
• Methods:
retrospective chart review of two periods, Jan - June, 2003 ( I group) and Oct, 2003 - Febr,2004 (II group)
Demographic data
10 (9,6%)17 (17%)Died
68 (65%)56 (56%)< 37 GW
33,4 ± 5,534,1 ± 5,5Gestational week
34 (32%) 17
22 (22%) 15
weight < 1500 g incl < 1000 g
2292 ± 11472338 ± 1218birthweight (g)
63/4161/39male/female
104100Newborn
Group IIGroup I
Demographic data
10 (9,6%)17 (17%)Died
68 (65%)56 (56%)< 37 GW
33,4 ± 5,534,1 ± 5,5Gestational week
34 (32%) 17
22 (22%) 15
weight < 1500 g incl < 1000 g
2292 ± 11472338 ± 1218birthweight (g)
63/4161/39male/female
104100Newborn
Group IIGroup I
9,4%
222
2005.a.
AB treatment for (suspected) congenital infection
P=0,00025,5 ± 3,48,1 ± 3,8Length of course (days)
79 (76%)
90 (90%)
Initial AB treatment
75 (72%)
53 (53%)
Inf. risk factors ( 1)
Group II (N = 104)
Group I (N = 100)
AB treatment for (suspected) congenital infection
P=0,00025,5 ± 3,48,1 ± 3,8Length of course
(days)
79 (76%)
90 (90%)
Initial AB treatment
75 (72%)
53 (53%)
Inf. risk factors ( 1)
Group II (N = 104)
Group I (N = 100)
67%
3,27
2005.a.
P = 0,0028,5 ± 4,213 ± 6,7Length of course
P = 0,02812,3 ± 108,2 ± 3,4
Age at the diagnosis of NI
34 (36%)
37 (37%)
Nosocomial infection (NI)
Group II(N = 104)
Group I(N = 100)
Nosocomial infection
Nosocomial infection
P = 0,0028,5 ± 4,213 ± 6,7Length of course
P = 0,02812,3 ± 108,2 ± 3,4
Age at the diagnosis of NI
34 (36%)
37 (37%)
Nosocomial infection (NI)
Group II(N = 104)
Group I(N = 100)
21%
8,7
2005.a.
Positive blood cultures
KONS (MR)
Enterobacteriaceae (ESBL-)
Enterobacteriaceae (ESBL+)
Enteroc.faec.
GBSPseudomonas
SerratiaStaph.aur.
Candida
Group I Group II
Positive blood cultures
KONS (MR)
Enterobacteriaceae (ESBL-)
Enterobacteriaceae (ESBL+)
Enteroc.faec.
GBSPseudomonas
SerratiaStaph.aur.
Candida
Group I Group II2005
Positive cultures from other sites (trachea, pharynx, CSF)
Enterobacteriaceae (ESBL-)
Enterobacteriaceae (ESBL+)
KONS (MR)
Acinetobacter
Pseudomonas
Staph. aur
KONSCandida
Group I Group II
Positive cultures from other sites (trachea, pharynx, CSF)
Enterobacteriaceae (ESBL-)
Enterobacteriaceae (ESBL+)
KONS (MR)
Acinetobacter
Pseudomonas
Staph. aur
KONSCandida
Group I Group II2005
Treatment of nosocomial infection
Vanco
Vanco+Mer
Mer
Cef III
Vanco+Cef III
Gen+Cef III
Gen
B-lakt.inh
Vanco+Gen
Cef II
Oxa
Group I(N = 37)
Group II(N = 34)
Treatment of nosocomial infection
Vanco+Gen
Meron
B-lact+Gen
Cef II
Cef III+Gen
Tallinn Children`s Hospital, 2005
Methicillin-resistant CONS
0
2
4
6
8
10
12
MIC of Vancomycin
microg/ml
2002 2003 2004 2005
Risk factors of nosocomial infection
Without NI(N = 36)
With NI (N = 34)
OR(95% CI)
Indwelling vascularcatheters
19(52%)
30(93%)
13,42(2,7 – 64,7)
Mean duration (d) 2,5 8,1
Birthweight < 1500 g 5(13%)
20(62%)
10,3(3,1 – 33,8)
Mechanical ventilation 23(63%)
27(84%)
3,05(0,9 – 9,85)
Mean duration (d) 1,8 5,7
Conclusions
Strict antibiotic policy can reduce the antibiotic burden
and the antimicrobial resistance pattern in NICU without
increase of septic complications.
Cost of antibiotics (EURO) Tallinn Children`s Hospital
0
2000
4000
6000
8000
10000
12000
2003 2099 10232 2969
2004 1105 4640 1157
2005 315 2152 672
Tienam Meronem Vancomycin
M.-L. Ilmoja 2006
ICU