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A prior report on hypothermia for neonatal hypoxic–ischemic encephalopathy showed a reduced rate of death or disability at 18 to 22 months of age. In this report of outcomes at 6 to 7 years, rates of death or an IQ below 70 were nonsignificantly lower with hypothermia than with usual care. Moderate or severe neonatal hypoxic–ischemic encephalopathy is associated with a high incidence of death or motor and sensory disability in children. 1 – 5 Children with encephalopathy are at risk for cognitive deficits even in the absence of functional deficits. Survivors without disability have delayed entry into primary school and fine-motor dysfunction and behavioral abnormalities. Hypothermia to 33 to 34°C for 72 hours, when initiated within 6 hours after birth among infants of more than 35 weeks' gestational age with hypoxic–ischemic encephalopathy, has been shown to reduce the risk of death or disability and increase the rate of survival free of disability . . .

In this randomized trial involving newborn infants with asphyxial encephalopathy, hypothermic therapy did not significantly reduce the rate of the primary outcome (i.e., death or severe neurodevelopmental disability) but did result in improvement in several prespecified secondary neurologic outcomes among survivors. In newborn infants with asphyxial encephalopathy, hypothermic therapy did not significantly reduce the rate of the primary outcome (i.e., death or severe neurodevelopmental disability) but did result in improvement in several prespecified secondary neurologic outcomes among survivors. Perinatal asphyxial encephalopathy is associated with high morbidity and mortality rates worldwide and is a major burden for the patient, the family, and society. There is an urgent need to improve outcomes in affected infants. Experimentally, reducing body temperature to 3 to 5°C below the normal level reduces cerebral injury and improves neurologic function after asphyxia. 1 – 6 Preliminary clinical studies have found no serious adverse effects of cooling. 7 – 9 Two randomized, controlled trials, the CoolCap trial 10 and the National Institute of Child Health and Human Development (NICHD) trial, 11 have reported outcomes among infants at 18 months of age who had . . .

Objective The objective of our study was to examine the relationship between brain injury and outcome following neonatal hypoxic–ischaemic encephalopathy treated with hypothermia. Design and patients Neonatal MRI scans were evaluated in the National Institute of Child Health and Human Development (NICHD) randomised controlled trial of whole-body hypothermia and each infant was categorised based upon the pattern of brain injury on the MRI findings. Brain injury patterns were assessed as a marker of death or disability at 18–22 months of age. Results Scans were obtained on 136 of 208 trial participants (65%); 73 in the hypothermia and 63 in the control group. Normal scans were noted in 38 of 73 infants (52%) in the hypothermia group and 22 of 63 infants (35%) in the control group. Infants in the hypothermia group had fewer areas of infarction (12%) compared to infants in the control group (22%). Fifty-one of the 136 infants died or had moderate or severe disability at 18 months. The brain injury pattern correlated with outcome of death or disability and with disability among survivors. Each point increase in the severity of the pattern of brain injury was independently associated with a twofold increase in the odds of death or disability. Conclusions Fewer areas of infarction and a trend towards more normal scans were noted in brain MRI following whole-body hypothermia. Presence of the NICHD pattern of brain injury is a marker of death or moderate or severe disability at 18–22 months following hypothermia for neonatal encephalopathy.

Cerebral hypothermia can improve outcome of experimental perinatal hypoxia-ischaemia. We did a multicentre randomised controlled trial to find out if delayed head cooling can improve neurodevelopmental outcome in babies with neonatal encephalopathy. 234 term infants with moderate to severe neonatal encephalopathy and abnormal amplitude integrated electroencephalography (aEEG) were randomly assigned to either head cooling for 72 h, within 6 h of birth, with rectal temperature maintained at 34–35°C (n=116), or conventional care (n=118). Primary outcome was death or severe disability at 18 months. Analysis was by intention to treat. We examined in two predefined subgroup analyses the effect of hypothermia in babies with the most severe aEEG changes before randomisation—ie, severe loss of background amplitude, and seizures—and those with less severe changes. In 16 babies, follow-up data were not available. Thus in 218 infants (93%), 73/110 (66%) allocated conventional care and 59/108 (55%) assigned head cooling died or had severe disability at 18 months (odds ratio 0·61; 95% CI 0·34–1·09, p=0·1). After adjustment for the severity of aEEG changes with a logistic regression model, the odds ratio for hypothermia treatment was 0·57 (0·32–1·01, p=0·05). No difference was noted in the frequency of clinically important complications. Predefined subgroup analysis suggested that head cooling had no effect in infants with the most severe aEEG changes (n=46, 1·8; 0·49–6·4, p=0·51), but was beneficial in infants with less severe aEEG changes (n= 172, 0·42; 0·22–0·80, p=0·009). These data suggest that although induced head cooling is not protective in a mixed population of infants with neonatal encephalopathy, it could safely improve survival without severe neurodevelopmental disability in infants with less severe aEEG changes.

In this multicenter, randomized trial, neonates with moderate or severe hypoxic–ischemic encephalopathy randomly assigned to whole-body hypothermia had a significantly reduced risk of death or moderate or severe disability at 18 to 22 months of age. This study suggests that whole-body hypothermia may improve substantially the outcomes for infants with hypoxic–ischemic encephalopathy. Neonates with moderate or severe hypoxic–ischemic encephalopathy randomly assigned to whole-body hypothermia had a significantly reduced risk of death or moderate or severe disability at 18 to 22 months of age. Among term infants, hypoxic–ischemic encephalopathy due to acute perinatal asphyxia remains an important cause of neurodevelopmental deficits in childhood. Infants with moderate encephalopathy have a 10 percent risk of death, and those who survive have a 30 percent risk of disabilities. Sixty percent of infants with severe encephalopathy die, and many, if not all, survivors are handicapped. 1 , 2 Treatment is currently limited to supportive intensive care. Reductions in brain temperature by 2°C to 5°C provide neuroprotection in newborn and adult animal models of brain ischemia. 3 – 10 Brain cooling has a favorable effect on multiple pathways contributing to brain injury, including . . .

Objective: Melatonin has been shown to be neuroprotective in animal models. The objective of this study is to examine the effect of melatonin on clinical, biochemical, neurophysiological and radiological outcomes of neonates with hypoxic–ischemic encephalopathy (HIE). Study Design: We conducted a prospective trial on 45 newborns, 30 with HIE and 15 healthy controls. HIE infants were randomized into: hypothermia group ( N =15; received 72-h whole-body cooling) and melatonin/hypothermia group ( N =15; received hypothermia and five daily enteral doses of melatonin 10 mg kg −1 ). Serum melatonin, plasma superoxide dismutase (SOD) and serum nitric oxide (NO) were measured at enrollment for all infants ( N =45) and at 5 days for the HIE groups ( N =30). In addition to electroencephalography (EEG) at enrollment, all surviving HIE infants were studied with brain magnetic resonance imaging (MRI) and repeated EEG at 2 weeks of life. Neurologic evaluations and Denver Developmental Screening Test II were performed at 6 months. Result: Compared with healthy neonates, the two HIE groups had increased melatonin, SOD and NO. At enrollment, the two HIE groups did not differ in clinical, laboratory or EEG findings. At 5 days, the melatonin/hypothermia group had greater increase in melatonin ( P <0.001) and decline in NO ( P <0.001), but less decline in SOD ( P =0.004). The melatonin/hypothermia group had fewer seizures on follow-up EEG and less white matter abnormalities on MRI. At 6 months, the melatonin/hypothermia group had improved survival without neurological or developmental abnormalities ( P <0.001). Conclusion: Early administration of melatonin to asphyxiated term neonates is feasible and may ameliorate brain injury.

Background Therapeutic hypothermia reduces death and disability after moderate or severe neonatal encephalopathy in high-income countries and is used as standard therapy in these settings. However, the safety and efficacy of cooling therapy in low- and middle-income countries (LMICs), where 99% of the disease burden occurs, remains unclear. We will examine whether whole body cooling reduces death or neurodisability at 18–22 months after neonatal encephalopathy, in LMICs. Methods We will randomly allocate 408 term or near-term babies (aged ≤ 6 h) with moderate or severe neonatal encephalopathy admitted to public sector neonatal units in LMIC countries (India, Bangladesh or Sri Lanka), to either usual care alone or whole-body cooling with usual care. Babies allocated to the cooling arm will have core body temperature maintained at 33.5 °C using a servo-controlled cooling device for 72 h, followed by re-warming at 0.5 °C per hour. All babies will have detailed infection screening at the time of recruitment and 3 Telsa cerebral magnetic resonance imaging and spectroscopy at 1–2 weeks after birth. Our primary endpoint is death or moderate or severe disability at the age of 18 months. Discussion Upon completion, HELIX will be the largest cooling trial in neonatal encephalopathy and will provide a definitive answer regarding the safety and efficacy of cooling therapy for neonatal encephalopathy in LMICs. The trial will also provide important data about the influence of co-existent perinatal infection on the efficacy of hypothermic neuroprotection. Trial registration ClinicalTrials.gov, NCT02387385 . Registered on 27 February 2015.

Background Perinatal asphyxia and resulting hypoxic-ischemic encephalopathy is a major cause of death and long-term disability in term born neonates. Up to 20,000 infants each year are affected by HIE in Europe and even more in regions with lower level of perinatal care. The only established therapy to improve outcome in these infants is therapeutic hypothermia. Allopurinol is a xanthine oxidase inhibitor that reduces the production of oxygen radicals as superoxide, which contributes to secondary energy failure and apoptosis in neurons and glial cells after reperfusion of hypoxic brain tissue and may further improve outcome if administered in addition to therapeutic hypothermia. Methods This study on the effects of AL lopurinol in addition to hypothermia treatment for hypoxic-ischemic B rain I njury on N eurocognitive O utcome (ALBINO), is a European double-blinded randomized placebo-controlled parallel group multicenter trial (Phase III) to evaluate the effect of postnatal allopurinol administered in addition to standard of care (including therapeutic hypothermia if indicated) on the incidence of death and severe neurodevelopmental impairment at 24 months of age in newborns with perinatal hypoxic-ischemic insult and signs of potentially evolving encephalopathy. Allopurinol or placebo will be given in addition to therapeutic hypothermia (where indicated) to infants with a gestational age ≥ 36 weeks and a birth weight ≥ 2500 g, with severe perinatal asphyxia and potentially evolving encephalopathy. The primary endpoint of this study will be death or severe neurodevelopmental impairment versus survival without severe neurodevelopmental impairment at the age of two years. Effects on brain injury by magnetic resonance imaging and cerebral ultrasound, electric brain activity, concentrations of peroxidation products and S100B, will also be studied along with effects on heart function and pharmacokinetics of allopurinol after iv-infusion. Discussion This trial will provide data to assess the efficacy and safety of early postnatal allopurinol in term infants with evolving hypoxic-ischemic encephalopathy. If proven efficacious and safe, allopurinol could become part of a neuroprotective pharmacological treatment strategy in addition to therapeutic hypothermia in children with perinatal asphyxia. Trial registration NCT03162653, www.ClinicalTrials.gov , May 22, 2017.

Objective To determine the effectiveness of phase-change-material mattress (PCM) during transportation of newborns with hypoxic ischemic encephalopathy (HIE). Study design Randomized controlled trial of newborns with HIE from June 2016 to December 2019. Patients were randomized to transport with PCM or without PCM (control) when transferred to a cooling center in northern Vietnam. Primary outcome measure was mortality rate, secondary outcomes including temperature control and adverse effects. Result Fifty-Two patients in PCM-group and 61 in control group. Median rectal temperature upon arrival was 34.5 °C (IQR 33.5–34.8) in PCM-group and 35.1 °C (IQR 34.5–35.9) in control group ( p  = 0.023). Median time from birth to reach target temperature was 5.0 ± 1.4 h and 5.5 ± 1.2 h in the respective groups ( p  = 0.065). 81% of those transported with PCM versus 62% of infants transported without ( p  = 0.049) had reached target temperature within the 6-h timeframe. There was no record of overcooling (< 32 °C) in any of the groups. The was no difference in mortality rate between the two groups (33% and 34% respectively ( p  > 0.05)). Conclusion Phase-change-material can be used as a safe and effective cooling method during transportation of newborns with HIE in low-resource settings. Trial registration The study was retro-prospectively registered in Clinical Trials (04/05/2022, NCT05361473).

ObjectiveTo evaluate the association between sedation–analgesia (SA) during initial 72 h and death/disability at 18 months of age in neonatal hypoxic-ischemic encephalopathy (HIE).DesignThis was a secondary analysis of the NICHD therapeutic hypothermia (TH) randomized controlled trial in moderate or severe HIE. Receipt of SA and anticonvulsant medications at five time points were considered: prior to and at baseline, 24, 48, and 72 h of TH or normothermia. Disability was defined as mental developmental index <85, cerebral palsy, blindness, hearing impairment, or Gross Motor Function Classification System 2–5.ResultsOf the 208 RCT participants, 38 (18%) infants had no exposure to SA or anticonvulsants at any of the five time points, 20 (10%) received SA agents only, 81 (39%) received anticonvulsants only, and 69 (33%) received both SA and anticonvulsants. SA category drugs were not administered in 57% of infants while 18% received SA at ≥3 time points; 72% infants received anticonvulsants during 72 h of intervention. At 18 months of age, disability among survivors and death/disability was more frequent in the groups receiving anticonvulsants, with (48 and 65%) or without (37 and 58%) SA, compared to groups with no exposure (14 and 34%) or SA (13 and 32%) alone. Severe HIE (aOR 3.60; 1.59–8.13), anticonvulsant receipt (aOR 2.48; 1.05–5.88), and mechanical ventilation (aOR 7.36; 3.15–17.20) were independently associated with 18-month death/disability, whereas TH (aOR 0.28; 0.13–0.60) was protective. SA exposure showed no association with outcome.ConclusionsThe risk benefits of SA in HIE need further investigation.