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PEDIATRICS Vol. 107 No. 1 January 2001, pp. 97-104
Received Dec 15, 1999; accepted Mar 31, 2000.
From the Department of * Pediatrics (Neonatology Division),
Internal Medicine (Cardiovascular Division), and Molecular
Physiology and Biological Physics, and the Cardiovascular Research
Center, University of Virginia Health Sciences Center, Charlottesville,
Virginia.
Background and Objective. Abrupt clinical deterioration because of sepsis is a major cause of morbidity and mortality in neonates, and earlier diagnosis should improve therapy of this potentially catastrophic illness. In practice, clinical signs and laboratory data have not been perceived as sensitive or specific for early stages of sepsis. Because heart rate characteristics (HRC) are abnormal during fetal distress and neonatal illness, we hypothesized that abnormal HRC might precede the clinical diagnosis of neonatal sepsis, adding independent information to standard clinical parameters.
Methods. In the neonatal intensive care unit at the
University of Virginia, we prospectively studied infants admitted from
August 1995 to April 1999 who were at risk for developing sepsis.
Infants in the sepsis (culture-positive) and sepsis-like illness
(culture-negative) groups had an abrupt clinical deterioration that
raised clinical suspicion of infection and prompted physicians to
obtain blood cultures and start antibiotic therapy. Infants without
sepsis raised no clinical suspicion of illness and had no cultures
obtained. We measured novel characteristics
moments and
percentilesof normalized heart rate (HR) time series for 5 days
before and 3 days after sepsis, sepsis-like illness, or a random time
in controls. We also calculated the Score for Neonatal Acute Physiology
(SNAP) and the Neonatal Therapeutic Intervention Scoring System (NTISS) as clinical scores of the severity of illness.
Results. There were 46 episodes of culture-positive sepsis
in 40 patients and 27 episodes of culture-negative sepsis-like illness
in 23 patients. We analyzed 29 control periods in 26 patients. Infants with sepsis and sepsis-like illness had lower birth weights and gestational ages and higher SNAP and NTISS scores than did infants without sepsis. The most important new finding was that the infants in
the sepsis and sepsis-like illness groups had increasingly abnormal HRC
for up to 24 hours preceding their abrupt clinical deterioration. The
abnormal HRC were reduced baseline variability and short-lived
decelerations in HR. These abnormalities led to significant changes in
HRC measures, for example, the third moment (skewness: .59 ± .10 for sepsis and .51 ± .12 for sepsis-like illness,
compared with 
.10 ± .13 for control over the 6 hours before
abrupt deterioration). Culture-positive and culture-negative patients
had similar HRC and clinical scores, including a significant rise in
SNAP in the 24 hours before the event. Multivariable logistic regression analysis showed that HRC and clinical scores independently added information in distinguishing infants with sepsis and sepsis-like illness from control patients in the 24 hours before abrupt
deterioration.
Conclusions. Newborn infants who had abrupt clinical deterioration as a result of sepsis and sepsis-like illness had abnormal HRC and SNAP that worsened over 24 hours before the clinical suspicion of sepsis. A strategy for monitoring these parameters in infants at risk for sepsis and sepsis-like illness might lead to earlier diagnosis and more effective therapy.heart rate variability, neonatal sepsis, Score for Neonatal Acute Physiology, Neonatal Therapeutic Intervention Scoring System, newborn. .
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