Temperature probe placement in very preterm infants during delivery room stabilization: an open-label randomized trial

Background Variation in practice exists for temperature probe positioning during stabilization of very preterm infants (<32 weeks gestation). We explored the influence of temperature probe sites on thermoregulation. Methods An open-label, stratified, balanced, parallel, randomized trial was conducted. Inborn infants were randomly assigned temperature probe to the axilla or to the upper back. The primary outcome was normothermia (local range: 36.8–37.3 °C and World Health Organization (WHO) range: 36.5–37.5 °C) at admission to the neonatal intensive care unit. Results Between 1 November 2018 and 4 July 2022, 178 infants were randomly assigned to one of the two sites (n = 89 each), 175 included in the final analysis. Normothermia (local range) was achieved for 39/87 infants (44.8%) assigned to the upper back compared to 28/88 infants (31.8%) assigned to the axilla [risk difference:13%; 95% CI −1.3–27.3]. Normothermia (WHO range) was achieved for 78/87 infants (89.7%) assigned to the upper back compared to 70/88 infants (79.6%) assigned to the axilla [risk difference:10.1%; 95% CI −0.5–20.7]. No infant recorded temperatures >38 °C or developed skin injury. Conclusions In very preterm infants, upper back site was equally effective as the axilla in maintaining normothermia, with no increase in adverse events. Clinical trial registration The study was registered with the Australian New Zealand Clinical Trials Registry (ACTRN12620000293965). Impact Substantial variation in practice exists for the site of securing a temperature probe during delivery room stabilization of very preterm infants and the influence of temperature probe site on thermoregulation remains unknown. In this study, upper back site was equally effective as the axilla in maintaining normothermia, with no increase in adverse events. Clinicians could adopt upper back site for maintaining normothermia. This study may contribute data to future international participant data prospective meta analysis of randomized controlled trials worldwide on temperature probe positioning in very preterm infants, increasing translation of research findings to optimize thermoregulation and clinical outcomes.


INTRODUCTION
3][4] This issue exists despite the use of evidencebased interventions for the maintenance of normothermia during delivery room (DR) stabilization.6][7][8] Hypothermia is associated with short-and long-term complications.Laptook et al. demonstrated an inverse association between body temperature and in-hospital mortality for preterm infants who were born <34 weeks GA. 2 Similarly, investigators from the Canadian Neonatal Network reported increased odds of death, or severe neurodevelopmental impairment in preterm infants < 29 weeks GA who were hypothermic upon admission to the neonatal intensive care unit (NICU). 4Tay et al. reported hypothermia on admission to the NICU to be an independent predictor for mortality and necrotizing enterocolitis in a large cohort of extremely preterm infants from New South Wales and the Australian Capital Territory in Australia. 3ariation in practice exists for the site of securing a temperature probe during DR stabilization. 9Bensouda et al. found comparable body temperatures at admission to the NICU when three different sites of temperature probe positioning (left lower back, left upper thorax, and left axilla) were compared in preterm infants ≥28 weeks GA. 10 In our unit, despite an improvement in normothermia after introducing a thermoregulation bundle for very preterm infants (<32 weeks GA) during DR stabilization, some infants continued to develop hypothermia. 11The current study was designed to test the hypothesis that application of a temperature probe to the left upper back during DR stabilization will achieve a higher proportion of normothermia at the time of NICU admission than application in the left axilla in very preterm infants.A systemic review reported on the need for further research to address this question. 12he current study was therefore undertaken to compare the effect of securing a temperature probe (TEMPP) at the left upper back versus the left axilla on normothermia at admission to the NICU in preterm infants <32 weeks GA during DR stabilization.Upper back is a standard site for securing a temperature probe, 9 is readily accessible, is not exposed to the ambient environment and the chances of accidental dislodgement of the temperature probe during the infant's resuscitation is potentially lower compared to the axilla, therefore we chose the left upper back as the intervention site.

Study design
This was an open-label, single-center, stratified (groups were based on GA), balanced, parallel-group randomized trial.The study was conducted at the Department of Neonatology, within the Women's and Newborn Health division at Westmead Hospital in Sydney, Australia.This tertiary referral hospital delivers healthcare to more than a million people living in the Local Health District, including perinatal services to about 6000 women each year.This study commenced after obtaining approval from The Western Sydney Local Health District's Human Research Ethics Committee (HREC/18/WMEAD/192).This study was registered with the Australian New Zealand Clinical Trials Registry (ACTRN12620000293965).The CONSORT 2010 checklist is included in the supplementary file (Supplementary File 1).

Participants
Inborn infants born between 23 +0/7 and 31 +6/7 weeks were eligible to participate in the study.Infants were excluded if they had a severe congenital malformation, were born before the arrival of the NICU team, or if they had a congenital cutaneous malformation at the site of securing the temperature probe.Also, we excluded infants (post-randomization) who had birth asphyxia requiring administration of cardiac compression and adrenaline to ensure a homogenous cohort of infants.These infants were excluded post-randomization for two reasons: i. the maintenance of normothermia in the DR may have been affected by frequent unwrapping of polyethylene wrap for cardiovascular and respiratory assessment and/or for procedures such as umbilical venous catheterization and ii.some infants at this gestation may have died in the DR.No changes were made to the eligibility criteria after the commencement of the study.A research team member introduced the study to the parent in the antenatal ward, or in the birthing unit.Parents provided written informed consent.

Randomization and masking
Infants were randomly assigned in a 1:1 ratio to receive the intervention at the upper back or at the axilla, using computer-generated random permuted blocks with varying block sizes.The randomization sequence was generated by an independent researcher.Randomization and assignment of the intervention were performed by the attending medical team in the DR, by opening a sequentially numbered, sealed, opaque envelop just before the birth of the infant.Randomization was stratified according to the GA at birth (Group 1: 23 +0/7 -27 +6/7 or Group 2: 28 +0/

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-31 +6/7 weeks).Twin or triplet births were randomized as individual participants.The attending medical team members were not blinded to the intervention.The assigned intervention was documented in the medical records.The data collector, and the statistician were not blinded to the intervention.The data collector had an additional role as medical record custodian for the department to ensure accuracy of the collated clinical records.

Intervention
Infants were randomly assigned to the left upper back (intervention site), or to the left axilla (usual care) for securing the temperature probe.Immediately after the birth the infant was placed supine on the resuscitaire, the nursing team member secured the temperature probe to the allocated site using a soft silicone tape, and a reflector cover (Fig. 1).Immediately after securing the temperature probe, the infant was wrapped in a polyethylene warp for maintaining normothermia.Apart from the interventions, all infants were resuscitated as per the Australian Resuscitation Council's resuscitation guideline. 13This included attempting delayed cord clamping for at least 60 seconds (in the absence of any contraindication), placing the infant without drying in a polyethylene sheet, and using warmed, humidified resuscitation gases.Our unit's thermoregulation practice for infants born <32 weeks has been described in detail elsewhere. 11easures for maintenance of normothermia for all infants were: (1) using a high-risk infant resuscitaire, and transport shuttle.The infant resuscitaire was connected to the transport shuttle which provided uninterrupted auxillary power to the resuscitaire during transportation of infants.The resuscitaire was equipped to provide advanced resuscitation where required.(2) Using the servo-controlled heat mode (also called baby mode).In this mode, the radiant warmer controlled heat output to maintain a desired set temperature of 37 °C.(3) Wrapping infants in a polyethylene sheet in the DR and ensuring infants were wrapped during transport to the NICU.(4) Using polyethylene-lined bonnet to cover the head and reduce evaporative heat loss.
All infants were positioned supine during DR stabilization and during transport to the NICU.We were unable to adjust the ambient temperature of the DR.After DR stabilization, the open resuscitaire was connected to the transport shuttle, and ongoing heat was delivered during transport to the NICU.A continuous display of the infant's skin temperature and the set temperature was visible on the resuscitaire's screen.The resuscitaire did not have an inbuilt capacity to store this information for data download.Our NICU is not co-located with the DR (birthing unit or operating theater), and transportation of an infant after birth from the DR to the NICU takes 10-15 min.

Outcomes
The primary outcome was the proportion of normothermia in infants at the time of admission to the NICU.This was defined as our local clinical temperature range of 36.8-37.3°C.In our local thermoregulation guideline, we chose this temperature range to achieve a target admission body temperature near 37 °C.To ensure generalizability of the results, we also used the WHO temperature range of 36.5-37.5 °C for comparison.The bedside nurse recorded the body temperature using a locally available digital thermometer (accuracy of ±0.1 °C) at the infant's axilla immediately after admission to the NICU, and before transferring the infant to the humidicrib.
][16] These details were collected from a clinical database which collates maternal, perinatal, and neonatal clinical data verified by designated audit officers following standardized definitions for clinical outcomes.The ancillary outcomes were fractional oxygen requirement at admission and the maximum fractional oxygen requirement in the first 24 h after birth, first blood sugar level at admission to the NICU, and the need for inotropic support in the first 72 h.Hyperthermia at admission to the NICU (body temperature >38 °C), and any skin injury from the temperature probe during the intervention period were considered adverse events related to the intervention.

Statistical analysis
A previous audit at the study site showed that 45% of infants born <32 weeks GA were normothermic upon admission to the NICU when following current internationally accepted DR practices for maintaining normothermia.A sample size of 89 infants in each group will provide 80% power, and a two-tailed alpha of 0.05 to detect an improvement to 75% in normothermia.Analysis of the primary outcome was performed following the principles of intention-to-treat analysis.Criteria for excluding infants post-randomization were pre-specified.The analysis of the primary outcome was adjusted for randomization strata based on GA.We documented resuscitaire equipment failure, which was not considered to be a protocol violation.We compared the primary outcome, and the secondary outcomes using an exact test for the difference of proportions between two independent samples.Proportions, counts, absolute risk reduction, and a 95% confidence interval were reported.The number needed to treat (NNT) was additionally reported for the primary outcomes.As a sensitivity analysis, generalized estimating equations equipped with a logit link function modeled the likelihood of normothermia by treatment.We included adjustments for the fixed effect of environmental temperature at birth, and for the random effect of multiple infants within the same pregnancy as these were potential sources of error.A term for the interaction between intervention, and GA group was also added.Significance of the interaction term would support observed differences in subgroup analyses.Statistical analyses were completed in Stata SE Version 14.2 (StataCorp, College Station, TX).All hypotheses were conducted at a significance level of 0.05 with a twosided alternative.An external data and safety monitoring board was not formed as the study intervention was a low-risk intervention.Two study investigators monitored enrolled patients for the development of any adverse events.

RESULTS
Recruitment commenced on 1 November 2018 and ceased on 4 July 4 2022.We randomly assigned 178 infants equally to receive the temperature probe either at the left upper back or at the left axilla site.Three infants were excluded from the analyses post-randomization; the reasons for their exclusion are shown in the CONSORT flow diagram (Fig. 2).A total of 175 infants (87 infants in the left upper back site and 88 infants in the left axilla site) were included in the primary intention-to-treat analysis, and assessed for the primary outcome.The trial ended as the total sample size was recruited.
The baseline demographic and clinical characteristics of the infants, and their mothers were similar between the two intervention sites (Table 1).The baseline demographic and clinical characteristics of the infants, and their mothers for the two subgroups based on GA were also similar (Table 1).The cohort's median age at birth was 28 weeks (interquartile range 27-30), and the median birth weight was 1171 g (interquartile range 915-1411).The mean ambient temperature of the birthing unit was higher compared to that of the operation theater by 2.2 °C [22.8 °C (standard deviation 0.9) compared to 20.6 °C (standard deviation 1.2), p < 0.01].
Complete data were available for analyzing the primary outcome for all 175 infants.Normothermia at admission to the NICU when following the local temperature range (36.8 °C-37.3°C) was achieved in 39 out of 87 (44.8%) infants who were assigned to the left upper back site compared to 28 out of 88 (31.8%) who were assigned to the left axilla site (absolute risk difference: 13%, 95% CI −1.3-27.3,relative risk 1.12, p = 0.06).In the subgroup analyses, the effect of the intervention on the proportion of normothermia was greater for infants ≤ 27 +6/7 weeks (absolute risk difference: 32.3%, 95% CI 9.4-55.1;NNT: 3) compared to infants ≥28 +0/7 weeks (Table 2).Normothermia at admission to the NICU when following the WHO temperature range (36.5 °C-37.5 °C) was achieved in 78 out of 87 (89.7%) infants who were assigned to the left upper back site compared to 70 out of 88 (79.6%) who were assigned to the left axilla site (absolute risk difference: 10.1%, 95% CI −0.5-20.7).In the subgroup analyses, the effect of the intervention on the proportion of normothermia was higher but not significant for both subgroups (Table 2).For the primary outcome, a sensitivity analysis with adjustment for ambient temperature at birth, and clustering of multiple births was performed.We found no difference in the proportion of normothermia at admission using the WHO temperature range including for the subgroups.A difference was observed when we used the local temperature range for infants in Group 1 but not for Group 2. No independent association was observed between the ambient temperature and normothermia (using either range).
The incidences of pre-specified secondary outcomes were similar for infants assigned to the two interventions including for each of the two GA-based subgroups (Table 3).
Ancillary outcomes: For the whole cohort, the mean body temperature which was measured at admission to the NICU differed significantly for infants assigned to the left upper back compared to the left axilla site (p = 0.02, Table 4 and Fig. 3).For both GA based subgroups, although the mean body temperature was higher for infants assigned to the left upper back compared to left axilla site for both subgroups, this difference was not significant.(Table 4 and Fig. 3).When we used WHO's range for normothermia, hypothermia (body temperature <36.5 °C) was observed in eight out of 87 infants (9.2%) for the upper back compared to 17 out of 88 infants (19.3%) for the axilla.This difference, including for the subgroups, was not significant (Group 1: upper back four out of 31 (12.9%)compared to axilla eight out of 31 (25.8%);Group 2: upper back four out of 56 (7.1%) compared to nine out of 57 (15.8%).The proportion of infants who recorded a body temperature of >37.5 °C was low (1%), and similar for both sites.No infant had local skin injury from temperature probe application, nor did they record body temperature >38 °C at admission to the NICU.There was no difference in the proportion of normothermia in infants based on whether they received delayed cord clamping or not [93/108 (86.1%) versus 55/67 (82%), Table 1.Maternal and infant demographics, baseline clinical characteristics for the cohort, and for the subgroups based on GA.
The incidence of the other post-hoc ancillary outcomes were similar for infants in both arms of the study.They included: fraction of inspired oxygen at and within the first 24 h of admission, first blood sugar level at admission, and need for inotrope in the first 72 h of admission (Table 4).

DISCUSSION
During DR stabilization of preterm infants <32 weeks gestation, compared to the standard site (left axilla), the intervention site (left upper back) had a higher proportion of normothermia (both WHO and local temperature ranges), although this difference was not statistically significant.This effect was consistent across the GA-based subgroups, except for infants ≤27 +6/7 weeks, in whom the proportion of normothermia was higher when we used a local temperature range for the intervention site compared with standard care site.The rates of pre-specified secondary outcomes were similar between the two groups.A higher mean body temperature at admission to the NICU, and no adverse events such as body temperature ≥38 °C or local skin injury from the temperature probe.Many interventions are listed for the maintenance of normothermia in preterm infants. 17This evidence is, at best, of a moderate quality, and in clinical practice, these interventions are used collectively for maintaining normothermia. 9But despite advances in the technology, and availability of equipment for thermoregulation, hypothermia in preterm infants still exists.Need for further research on exploring an ideal site for TEMPP has been highlighted. 12There is variation in practice for the site of securing a temperature probe. 9We chose the left upper back site for the intervention for the following reasons: i) it is a standard site for TEMPP, ii) easy access for securing the probe during DR stabilization, iii) flat skin surface, and is not exposed to the ambient environment compared to exposed and uneven skin surfaces (from underlying ribs) at the standard site, and iv) potentially a lower chance of accidental dislodgement of the probe during the infant's resuscitation. 9Therefore, the current study was designed to test the hypothesis that application of a temperature probe to the left upper back during DR stabilization will achieve a higher proportion of normothermia at the time of NICU admission than application in the left axilla in very preterm infants.The current study showed a clinically important effect on maintaining normothermia when using the intervention site compared to the standard site for TEMPP.The results of the subgroup analyses suggested a greater benefit of the intervention to infants ≤27 +6/7 weeks GA, with a NNT of three (for the local temperature range) for one infant to benefit.The reasons for this observation could be better contact between the temperature probe sensor and the flat skin surface at the intervention site, or less exposure of the intervention site to an environmental draught of cold air.This in turn maintained steady perfusion to the site.We observed a bimodal empirical distribution for the body temperature at admission to the NICU.We did not find the variable responsible for this observation.
Globally, of the 13.4 million preterm infants (<37 weeks gestation), ~2 million were born <32 weeks gestation, and 0.6 million were born <28 weeks gestation. 18Without immediate high-quality care, most infants <28 weeks will not survive.Servocontrol heating mode was used for maintaining normothermia during transport of infants ≤27 +6/7 weeks by >40% NICUs from low and lower-middle-income, upper-middle-income, and highincome countries. 9In the current trial, the intervention was implemented using servo-control heating mode for all infants.Also, a higher proportion of infants assigned to the upper back group maintained normothermia (for the WHO and local range) compared to axilla, but this difference was not significant.This suggests that the present study intervention can be implemented for maintaining normothermia during DR stabilization at hospitals    delivering preterm infants and using a servo-control heating mode across all geographic, and income status-based regions.TEMPP is the first study comparing the effect of securing the temperature probe at the upper back site on thermoregulation in very preterm infants including those before 28 weeks gestation.We achieved very high adherence to the protocol (>99%).While the result of this single-center study is encouraging and applicable to some NICUs, it cannot be generalized to all NICUs.This includes NICUs using the resuscitaire in a manual heating mode during DR stabilization and for transporting infants from the DR to the NICU, those using additional devices to provide warmth such as a heating mattress, and those providing active care to infants <23 +0/7 weeks gestation.Further prospective research with the above practices or patients needs to be undertaken before changing practice.Both the sites for securing the temperature probe are standard care interventions and carry a low risk.For such comparative effectiveness trials, there is emerging literature regarding the acceptance of a waiver of consent by the parents and the researchers and its role in ensuring a wider representation of the population studied, and the generalizability of the result. 19imilar low-risk comparative effectiveness trials in the future may benefit from "waiver of consent or deferred consent" approach if this is not prohibited by state or national law.
We acknowledge several limitations of the current single center trial.Blinding the clinical team in the DR to the assigned intervention was impossible.We also did not blind the data collector or the statistician, to increase rigor in interpreting the analysis, and minimizing errors.We did not collect information on first temperature nor the time to reach normothermia in the DR as this could have distracted the resuscitation team from infant stabilization.However, for infants in the two intervention groups, we compared the time to admission to the NICU as a surrogate marker for reaching normothermia in DR, and they were similar.Also, there were no differences in measures for maintaining normothermia in the DR for all infants.A third of the eligible infants could not be enrolled as a researcher was not available afterhours for obtaining consent, or the delivery occurred rapidly.The study was paused during the pandemic.Three infants met the pre-specified exclusion criteria, hence only 175 infants were included in the final analysis.The sample size calculation was performed using a baseline rate of normothermia and a 30% improvement in the rates of normothermia from clinical practice improvement. 11It is possible that the Hawthorne effect and local clinical practice improvement activities may have contributed to an increase in proportion of normothermia in the control group.For these reasons, our results did not show such an outcome despite the small but appropriately powered sample size.Finally, the sample size of infants ≤27 +6/7 weeks gestation was small, this may have led to wide confidence intervals.This reflects the incidence of birth at this gestation in the local population.
In conclusion, during DR stabilization of preterm infants <32 weeks gestation, securing a temperature probe at the left upper back compared with the left axilla was equally effective in maintaining normothermia with no significant increase in adverse events.Clinicians attending birth of infants <32 weeks, and using servo control heat mode could adopt upper back site for maintaining normothermia.Ultimately, our study may contribute data to future international participant data prospective meta analysis of randomized controlled trials worldwide on temperature probe positioning in very preterm infants, increasing translation of research findings to optimize thermoregulation and clinical outcomes.Fig. 3 The distribution of mean admission body temperature based on the intervention.a For the whole cohort.b For Group 1 (infants ≤27 +6/7 weeks).c For Group 2 (infants ≥28 +0/7 weeks and <32 +0/7 weeks).LA left axilla, LB left upper back.Broken dash line = 36.5-37.5 °C, dotted line = 36.8-37.3°C.

Fig. 1
Fig. 1 Sites of temperature probe positioning.LA left axilla, LB left upper back.
= absolute risk reduction.Data are n (%) or median (IQR).IQR interquartile range, FiO 2 fraction of inspired oxygen, CI confidence interval.a These outcomes were added post-hoc.P.R. Jani et al.

Table 2 .
Primary outcome and subgroup (based on GA at birth) analyses.