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Neonatal Sepsis and Recent Challenges Mohammad Khasswneh, MD Assistant Professor of Pediatrics JUST introduction • Common – 20% of VLBW has sepsis – In term 0.1% – Inter-institution difference 11-32% (NICHD net work) • Serious – mortality is 3-5 times more for infant with sepsis in NICU Classification • Early onset sepsis (EOS): – bacteria acquired before and during delivery – 5-7/1000 live birth – 1.5% of VLBW infants had EOS (intrapartum antibiotics) • Late onset sepsis (LOS): – bacteria acquired after delivery (Nosocomial or community) – 20% of VLBW infants Who is the septic neonate? • Positive blood culture with clinical symptoms of infection – Coagulase-negative Staphylococcus (CoNS) • 2 positive blood cultures • One positive blood culture and elevated CRP • Clinical sepsis” or “probable sepsis Adult and Pediatrics Definitions • Systemic Inflammatory response syndrome (SIRS) • Sepsis – as SIRS plus infection • Severe sepsis: – as sepsis associated with organ dysfunction, hypo perfusion or hypotension, • Septic shock – sepsis with arterial hypotension despite fluid resuscitation Blood Culture –One out of five evaluations for sepsis has positive blood culture –80% of the time, empiric antibiotics will be given when no organism is isolated from culture Blood culture • In a 1999, autopsy study of ELBW infants • infection was primary cause of death by pathologists in (56 of 111) • sepsis was not diagnosed prior to death for 61% of these 56 neonates False negative Blood Culture • Maternal antibiotics • Small blood sample • in a prospective study of nearly 300 blood cultures drawn from critically ill neonates, 55% of culture vials contained less than 0.5 ml of blood • Bacteria load, timing of sampling Diagnosis Clinical Signs according to WHO Integrated Management of Childhood illness • • • • Respiratory rate >60 breaths/min Retraction, flaring, Grunting Crepitation Cyanosis Clinical Sings according to WHO Integrated Management of Childhood illness • Temperature >37.7°C (or feels hot) or <35.5°C (or feels cold) • Convulsions ,Lethargic or unconscious • Reduced movements and activity) • Not able to feed (sustain suck) • Bulging fontanels Other signs in NICU • abnormal heart rate characteristics • Reduced digital capillary refill time • metabolic acidosis • Increase in weight Clinical signs of sepsis in VLBW infants NICHD network study • Apnea in 55% • gastrointestinal problems (46%), • increased need for oxygen or ventilatory support 36% • lethargy/hypotonia 23% • Hypotension 5% • The positive predictive value 14 to 20%. New Diagnostic Methods • • • • • • CRP Interleukin 6,8 IgM Polymerase chain reaction (PCR) DNA microarray technology Immunoassay CRP • Best discriminatory value for predicting septicemia • Expressed by all gestational age • sensitivity 48 to 63% Serial CRP • elevated CRP on day 1 and/or day 2, identify most case of sepsis – sensitivity (90.2%) Serial CRP • When CRP is normal on days 1 and 2 ,neonatal sepsis can be confidently excluded and antibiotic therapy ceased –negative predictive value (97.7%). CRP • Sensitivity of serial CRP testing is lower for bacteremia due to grampositive than to gramnegative bacteria CRP • Help in timing of discontinuation of antibiotics when CRP normalize • Further studies is needed Polymerase Chain Reaction (PCR) • PCR: under investigation for bacterial and fungal infection –amplification of 16S rRNA, –a gene universally present in bacteria but absent in humans – Results in 9 h of sample acquisition PCR –Sensitivity 96% –Specificity 99.4% –positive predictive value 88.9% –negative predictive value 99.8% Microbiology in Developing Country • Gram negative organisms – Klebsiella, Escherichia coli, – Pseudomonas, and Salmonella. • Gram positive less common – Staphylococcus Aureus – Coagulase negative staphylococci (CONS) – Streptococcus pneumoniae, and Streptococcus pyogenes Microbiology In Developing Country • Group B streptococcus (GBS) is rare • Maternal recto-vaginal Carriage rates for GBS is similar to that in developed country Meningitis developing country • 1st week mainly Gram negative. • Older than 1 week: – Streptococcus pneumonia, 50% of all bacterial meningitis occurring between 7 and 90 days of age –Fatality rate of 53%. Microbiology in Developed Country • EOS – GBS and E coli – Recently decrease in Gram positive organisms (GBS) and increase in Gram negative organisms • LOS: – Coagulase Negative Staph (CON), – GBS – Staph Aureus. New trends • incidence of GBS sepsis decreased from 5.9 to 1.7 per 1,000 • the incidence of sepsis from E. coli increased from 3.2 to 6.8 per 1,000 between 1991-1993 and 1998-2000 Case Fatality • EOS: more severe and case fatality rate is higher( all-causes mortality was 37%) • LOS: less sever (CoNS) 18%. Mortality Per Organisms percentages/ LBW infants • Gram-negative 257cases – E coli 53 cases – Klebsiella 62 cases – Pseudomonas 43 cases – Enterobacter 41 cases – Serratia 39 cases • fungal 151cases (36%) (34%) (22%) (74%) (26%) (35%) (31%) Mortality Rate by Organisms in low birth weight infants • Gram-positive 905 case 101 deaths (11.2%) – CoNS . 606 cases (9.1%) – S aureus 99 cases (17.2%) – GBS 32 cases (21.9%) – All other streptococci 65 cases (10.8%) Sepsis Risk Factors • Prematurity • Birth weight – Term – 1,000 -1,500 g – <1,000 g – <750 g. 0.1% 10% 35% 50% • Delay enteral feeding and Prolonged TPN Frequent Blood Drawing?? Group B streptococcus (GBS) • Maternal colonization 15 to 40% • 50% of infants acquire surface colonization at delivery • 1% of colonized full-term infants develop EONS GBS • In 1996, GBS guidelines • Incidence declined from 5.9-1.7 per 1,000 in 1992 and 1999 respectively • Emergence of penicillin resistance among GBS (Japan) GBS Guideline • the incidence of infections with gram-negative bacteria increased • antibiotic resistance among gram-negative pathogens has increased Coagulase-Negative Staphylococci • commonest cause of nosocomial bacteremia – ventriculoperitoneal shunt infection –Endocarditis with umbilical lines • S. epidermidis, S. haemolyticus, S. hominis, S. saprophyticus, Coagulase-Negative Staphylococci • Sepsis with CoNS is often indolent • nonspecific symptoms Coagulase-negative staphylococci • a positive blood culture for CoNS may represent either contamination – 26 cases, in only 16 cases were cultures from two sites positive, and the other 10 cases were considered to represent contamination Coagulase-negative staphylococci • Studies have shown that initial therapy of suspected LONS with nafcillin or oxacillin and an aminoglycoside,rather than vancomycin did not change outcome (decrease resistance) Staphylococcus aureus • Less commonly seen • S. aureus strains remained sensitive to extendedspectrum penicillins (oxacillin or nafcillin) Gram Negative bacteria • • • • • Klebsiella pneumoniae in our area E. coli in united states Increase in incidence Multiresistance Invasion of CNS, Citrobacter koseri Gram Negative • P. aeruginosa – conjunctivitis – systemic disease high mortality • Haemophilus influenzae. – Non typeable – Fulminant, simulating RDS. – Mortality 90% Antibiotics Resistance • Induced by antibiotic pressure (over use) • Broad-spectrum cephalosporin induce chromosomal ESBLs in gram-negative bacilli Antibiotics Resistance • Ampicillin and Amikacin for empiric treatment of EONS • Oxacillin and amikacin for empiric treatment of LONS reduce colonization with resistant gramnegative bacilli from 32 to 11% Practical points • LP should be done in evaluation of sepsis even with negative blood culture • Urine culture is not part of work up for EOS • Vesicoureteral reflux was present in 14% of VLBW infants with UTI. Conclusions • Gram negative organism is becoming more common worldwide • GBS is not common in our area • Multi-resistance organism mandate different approaches for N. sepsis treatment Conclusions • CRP can help in early discontinuation of antibiotics • New Diagnostic Technology will play role in both – Early diagnosis and treatment – Restrict antibiotics over use