Gas exchange in premature neonates is regularly impaired by structural and functional immaturity of the lung. Mechanical ventilation, which is vitally important to sustain oxygenation and CO(2) elimination, causes, at the same time, mechanical and inflammatory destruction of lung tissue. To date, extracorporeal oxygenation is not a treatment option, one reason among others being the size of available oxygenators and cannulas. We hypothesized that a substantial improvement in gas exchange can be achieved by maintenance of the fetal cardiopulmonary bypass and interposition of a suitable passively driven (arteriovenous) membrane oxygenator. In close cooperation between engineers and neonatologists, we developed a miniaturized oxygenator and adapted cannulas to be used as a pumpless extracorporeal lung support that is connected to the circulation via cannulation of the umbilical cord vessels. First in vitro and in vivo studies show promising results. We regard this as one step on the way to clinical application of the artificial placenta.
Background: For quick detection or exclusion of neonatal early-onset bacterial infection (EOBI) or late-onset bacterial infection (LOBI), interleukin (IL)-6 is used. Its clinical use is sometimes limited due to prolonged recall times. Therefore, an IL-6 bedside test was established. Objective: To compare the diagnostic value of plasma IL-6 and an IL-6 bedside test at the time of clinical suspicion in the course of EOBI and LOBI. Methods: Eighteen term (mean gestational age 40.2 weeks, SD 1.3) and 88 preterm (mean gestational age 30.1 weeks, SD 4.2) neonates with clinical and serological signs of bacterial infection were analysed. Eight had an EOBI, and 24 had a LOBI, of whom 13 were blood culture positive. Twelve term and 62 preterm neonates with risk factors but without proven EOBI/LOBI served as a non-infected group. Results: At the time of clinical suspicion, the sensitivity of the IL-6 bedside test in comparison to plasma IL-6 was 69 versus 75% (p = 0.7744, McNemar’s test), and specificity was 77 versus 81% (p = 0.6476, McNemar’s test; cutoff level 50 ng/l). For LOBI, both the sensitivity (75%) and specificity (82%) of the bedside test exceeded values calculated for EOBI (sensitivity 50%, specificity 75%). Conclusion: No significant difference between the bedside and established plasma IL-6 test was detected for LOBI. For detection of EOBI, the bedside test was not sensitive enough. Larger studies are needed to verify our findings before IL-6 bedside tests can be recommended routinely.
The concept of an artificial placenta has been pursued in experimental research since the early 1960s. The principle has yet to be successfully implemented in neonatal care despite the constant evolution in extracorporeal life support technology and advancements in neonatal intensive care in general. For more than three decades, the physical dimensions of the required equipment necessitated pump-driven circuits; however, recent advances in oxygenator technology have allowed exploration of the simpler and physiologically preferable concept of pumpless arteriovenous oxygenation. We expect that further miniaturization of the extracorporeal circuit will allow the implementation of the concept into clinical application as an assist device. To this end, NeonatOx (Fig. 1), a custom-made miniaturized oxygenator with a filling volume of 20 mL, designed by our own group, has been successfully implemented with a preterm lamb model of less than 2000 g body weight as an assist device. We provide an overview of milestones in the history of extracorporeal membrane oxygenation of the preterm newborn juxtaposed against current and future technological advancements. Key limitations, which need to be addressed in order to make mechanical gas exchange a clinical treatment option of prematurity-related lung failure, are also identified.
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