Temperature and heater responses during transition between radiant and incubator thermal environment in newborn preterm lambs.

OBJECTIVE: Although both incubators and radiant warmer beds can provide thermal support to infants in the neonatal intensive care unit, the transition between devices can be a stressful event. The goal of this study was to evaluate a new device that combines these methods of warming and converts between them without requiring physical movement of the infant. STUDY DESIGN: Twin preterm lambs received thermal support from a radiant warmer bed and an incubator (control), or from the Versalet 7700 Care Center (treatment) in the warmer and incubator configurations. Temperature of each lamb, as well as device heater power, were monitored every 2 min before, during, and after the transition. Physiological parameters were monitored every 15 min. RESULTS: There was a significant difference in response time between closed-open and open-closed conditions for both groups. More adverse events occurred in the control group during transfers. There were no differences in temperatures or physiological variables during transitions in either group. CONCLUSIONS: These data suggest the Versalet provides similar thermal stability to traditional devices, with fewer adverse events associated with the lack of physical movement between warming configurations. The impact of this device on the care of the preterm neonate will be evaluated in a clinical trial.

Thermal stability and transition studies with a hybrid warming device for neonates.

OBJECTIVE: The use of both warmer beds and incubators is common in neonatal intensive care units (NICU), and transferring between these two warming devices is a routine and necessary event. This study was designed to evaluate the efficacy of a new hybrid-warming device, the Versalet, in transitioning a preterm animal from a warmer bed to an incubator mode and back. STUDY DESIGN: Nine premature lambs were randomized, following delivery, to receive thermal support from a conventional warming bed and an incubator (control group), or from the Versalet (study group) in the warmer bed and incubator modes. Core and various surface temperatures, as well as physiological parameters were measured first during warming in the radiant warmer bed mode, Versalet or Resuscitaire and then during transition to the incubator mode, Versalet or Isolette, and then back to the warmer bed mode. RESULTS: The animals remained stable during all the transitions. Despite careful planning, adverse events occurred in the control group during transfers. There were no significant differences in the temperature or physiologic profiles during any of the transitions in either group. CONCLUSION: Compared with the standard warming technique used in NICUs (separate warmer bed and incubator), the Versalet provides similar thermal and cardiovascular stability without adverse events during transition to different modes of warming. The degree to which this device would contribute to ease of management and improved outcomes in humans needs to be evaluated in a clinical trial.

The timing of neonatal discharge: An example of unwarranted variation?

UNLABELLED: Discharge from an intensive care nursery should be dependent on the infant's clinical and social condition and independent of the day of the week. OBJECTIVE: To evaluate admission and discharge dates of 5272 neonates cared for in 5 major metropolitan regions in the United States and managed by a national disease management company for the distribution of the day of the week. STUDY DESIGN: All infants discharged to home between July 1, 1996 and September 30, 1998 are included. Data are represented as a percentage of total discharges or admissions for each weekday assignment. Using the normal approximation to the multinomial distribution, we tested for proportional differences on each weekday. RESULTS: The data demonstrate that the timing of nursery discharge has an uneven distribution across the days of the week, with weekend (Saturday and Sunday) discharge rates that are significantly lower than weekday discharge rates. This uneven distribution exists in both the term and preterm subgroups as well. There is also an uneven distribution of births among the days of the week, with a pattern that reveals fewer weekend births than weekday births in the entire population studied, as well as in both the term and preterm subgroups. Normalizing these weekend discharges to the previous weekday could generate potential saving of $1 569 405 in charges for the total population and 627 days of hospitalization. The average length of stay of infants discharged on Mondays is longer than for those infants discharged on Saturday or Sunday. CONCLUSIONS: We speculate that changes in discharge planning could decrease the variation in day of discharge, shorten length of hospitalization, and potentially reduce cost.

Supplemental oxygen delivery to the nonventilated neonate.

Oxygen is one of the most commonly administered drugs in the neonatal intensive care unit. A variety of techniques exists to deliver oxygen to infants who are not on a ventilator or who are not receiving positive pressure. These techniques include oxygen hood, nasal cannula, face mask delivery or "free flow," and "flooding" the incubator with oxygen. Because each technique has unique advantages and disadvantages, the choice is frequently dependent on style. Recent advances in incubator technology have improved the delivery of supplcmental oxygen by incubator flooding. This technique is generally underutilized, but it has some advantages over thc other modalities in certain clinical scenarios. The neonatal nurse needs to be aware of the characteristics of the various oxygen delivery technologies and the tools needed to optimally care for infants who are dependent on supplemental oxygen.