American journal of perinatology
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To test the hypothesis that end-tidal CO(2) (PETCO(2)) varies with tidal volume (Vt) in preterm infants. ⋯ Vt, through its effect on dead space/Vt (Vd/Vt) ratios and arterial-alveolar CO(2) differences, has a significant effect on PETCO(2). Observation of PETCO(2) across a range of Vt can be used to select an appropriate Vt for preterm infants requiring mechanical ventilation.
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Comparative Study Clinical Trial Controlled Clinical Trial
Diagnostic value of cytokines and C-reactive protein in the first 24 hours of neonatal sepsis.
The first objective of this article was to determine the diagnostic accuracy of tumor necrosis factor-alpha, interleukin-6 (IL-6), and interleukin-8 (IL-8) in differentiating infected from noninfected neonates during the first 24 hours of suspected sepsis and to compare them to the currently used laboratory parameters: C-reactive protein (CRP), immature-to-total neutrophil ratio, and leukocyte and platelet count. The secondary objective was to compare the cytokine levels in subpopulations of neonates. Seventy-five premature and 30 term infants were enrolled. ⋯ A combination of CRP > 10 pg/mL plus IL-6 > 18 pg/mL (sensitivity = 89%, specificity = 73%, PPV = 70%, NPV = 90%) was the best "0-hour" test, and CRP (sensitivity = 78%, specificity = 94%) was the best "24-hours" test. Lower IL-6 at 0-hour (p = 0.018) and IL-8 at 24 hours (p = 0.023) were detected among the patients infected with coagulase-negative staphylococci then with other bacteria. In conclusion, a combination of CRP + IL-6 provided additional diagnostic accuracy for differentiation between septic and nonseptic patients during the first 24 hours of suspected sepsis.
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The objective of this article is to determine whether low-birth-weight (LBW) infants have the capacity to modulate minute ventilation to achieve a CO (2) set-point within ranges acceptable to clinicians during a procedure designed to identify the best dynamic compliance loops. By using dynamic flow-loop mechanics, we performed a prospective stepwise reduction of tidal volume (by reduction of peak inspiratory pressure, keeping end-expiratory pressure constant), in a group of LBW infants to identify the steepest slope of the dynamic flow-loop. We used flow-synchronized, assist-control mechanical ventilation with termination sensitivity set at 5%. ⋯ LBW infants have the capacity to alter respiratory rate to change minute ventilation in response to a reduction of tidal volume created by lowering the PIP. Using this model of endogenous CO(2) challenge in ventilated infants, we conclude that LBW neonates have the capacity to select a CO(2) set-point. This approach suggests an important avenue through which a clinician can minimize volutrauma through a reduction of PIP and use of expiratory trigger to limit excessive PIP and an overall lower mean airway pressure.