Hyperglycaemia in the Newborn Infant. Physiology Verses Pathology.

Hyperglycemia is common in newborns requiring intensive care, particularly in preterm infants, in sepsis and following perinatal hypoxia. The clinical significance, and optimal intervention strategy varies with context, but hyperglycaemia is associated with increased mortality and morbidity. The limited evidence for optimal clinical targets mean controversy remains regarding thresholds for intervention, and management strategies. The first consideration in the management of hyperglycaemia must be to ascertain potentially treatable causes. Calculation of the glucose infusion rate (GIR) to insure this is not excessive, is critical but the use of insulin is often helpful in the extremely preterm infant, but is associated with an increased risk of hypoglycaemia. The use of continuous glucose monitoring (CGM) has recently been demonstrated to be helpful in targeting glucose control, and reducing the risk from hypoglycaemia in the preterm infant. Its use in other at risk infants remains to be explored, and further studies are needed to provide a better understanding of the optimal glucose targets for different clinical conditions. In the future the combination of CGM and advances in computer algorithms, to provide intelligent closed loop systems, could allow a safer and more personalized approached to management

The potential impact of the fetal genotype on maternal blood pressure during pregnancy.

The heritability of pregnancy-induced hypertension (encompassing both gestational hypertension and preeclampsia) is around 0.47, suggesting that there is a genetic component to its development. However, the maternal genetic risk variants discovered so far only account for a small proportion of the heritability. Other genetic variants that may affect maternal blood pressure in pregnancy arise from the fetal genome, for example wild-type pregnant mice carrying offspring with Cdkn1c or Stox1 disrupted develop hypertension and proteinuria. In humans, there is a higher risk for preeclampsia in women carrying fetuses with Beckwith-Wiedemann syndrome (including those fetuses with CDKN1C mutations) and a lower risk for women carrying babies with trisomy 21. Other risk may be associated with imprinted fetal growth genes and genes that are highly expressed in the placenta such as GCM1. This article reviews the current state of knowledge linking the fetal genotype with maternal blood pressure in pregnancy.MRCThis is the Author Accepted Manuscript of Petry CJ, Beardsall K, Dunger DB. "The potential impact of the fetal genotype on maternal blood pressure during pregnancy". published in the Journal of Hypertension. The published version is available at http://dx.doi.org/10.1097/HJH.000000000000021

A feasibility study of paired Continuous Glucose Monitoring (CGM) intra-partum and in the newborn in pregnancies complicated by Type 1 Diabetes

Aim: To describe the continuous glucose monitoring (CGM) profiles of type 1 diabetes (T1D) offspring in the early neonatal period and its association with maternal intrapartum glucose control. Methods: A prospective observational study of T1D pregnant women and their neonatal offspring. Women had a CGM sensor inserted 2-3 days prior to delivery. Infants had a masked CGM sensor inserted as soon as possible following delivery. Maternal glycaemic outcomes were time-in-target (70-140 mg/dL [3.9-7.8 mmol/L]), hyperglycaemia >140 mg/dL (7.8 mmol/L) and mean CGM glucose during the 24 hours preceding delivery. Neonatal outcomes included lowest recorded blood glucose concentration, and CGM measures (glucose 140 mg/dL (7.8 mmol/L), and 9 (9) % time < 70 mg/dL (3.9 mmol/L) with mean (SD) CGM glucose 113 (9) mg/dL (6.3 [0.7] mmol/L). 15 infants (93.8%) had ≥1 blood glucose concentration < 47 mg/dL (2.6 mmol/L) and five had ≥1 blood glucose concentration < 18 mg/dL (1.0 mmol/L). The mean infant CGM glucose on days 1, 2, and 3 of life was 63 (14), 67 (13), 76 (11) mg/dL (3.5 [0.8], 3.7 [0.7], and 4.2 [0.6] mmol/L). Four infants (25%) spent more than 50% time with CGM glucose levels < 47 mg/dL (2.6 mmol/L) on day 1. Conclusions: CGM detected widespread neonatal hypoglycaemia, even among mothers with good intrapartum glucose control

Thresholds for hypoglycaemic screening-a cause for concern?

The new Framework for Practice highlights the limited evidence for our current clinical practice (1). It is helpful in emphasising the importance of accurate measurement of glucose concentrations, listening to the concerns of parents and acknowledging that untreated hypoglycaemia can have devastating longterm consequences. However we have the following concerns: Screening thresholds The Framework recommends lowering a commonly accepted screening threshold in infants considered to be at risk of hypoglycaemia to a level that at any other time of life would be considered harmful. It fails to acknowledge the differences between screening and diagnostic thresholds; something neonatologists are very familiar with in the management of babies with jaundice. Phototherapy is provided to many babies with bilirubin levels well below a harmful level to prevent a harmful level being reached. Screening interventions are intended to prevent harmful events. Such thresholds will inevitably mean many individuals are treated ‘unnecessarily’ to avoid the risk of significant harm. In 2000 Cornblath et al published guidance on ‘operational thresholds’ in keeping with the current BAPM framework (2). However, and possibly reflecting concerns about the lack of evidence for the safety of this lower operational threshold, in 2017 in the UK, >80% of neonatal units still used <2.6mmol/ as their defined hypoglycaemic threshold (3). A threshold of <2.6mmol/l provides an opportunity for intervention before damaging neuroglycopaenia occurs

Feasibility of Automated Insulin Delivery Guided by Continuous Glucose Monitoring in preterm infants

Abstract: Objective: Closed-loop systems have been used to optimise insulin delivery in children with diabetes, but they have not been tested in neonatal intensive care. Extremely preterm infants are prone to hyperglycaemia and hypoglycaemia; both of which have been associated with adverse outcomes. Insulin sensitivity is notoriously variable in these babies and glucose control is time-consuming, with management requiring frequent changes of dextrose-containing fluids and careful monitoring of insulin treatment. We aimed to evaluate the feasibility of closed-loop management of glucose control in these infants. Design and Setting: Single centre feasibility study with a randomized parallel design in a neonatal intensive care unit. Eligibility criteria included birth weight <1200g and <48hours of age. All infants had subcutaneous continuous glucose monitoring for the first week of life, with those in the intervention group receiving closed-loop insulin delivery in a pre-specified window, between 48 and 72hours of age during which time the primary outcome was percentage of time in target (sensor glucose 4-8mmol/l). Results: The mean (SD) gestational age and birth weight of intervention and control study arms were 27.0(2.4) weeks, 962(164) g and 27.5(2.8) weeks, 823(282) g respectively, and were not significantly different. The time in target was dramatically increased from median (IQR) 26%(6, 64) with paper guidance to 91%(78, 99) during closed loop (p<0.001). There were no serious adverse events and no difference in total insulin infused. Conclusions: Closed-loop glucose control based on subcutaneous glucose measurements appears feasible as a potential method of optimizing glucose control in extremely preterm infants.Funding was provided by the Evelyn Trust, the National Institute of Health Research EME Program and the National Institute of Health Research Cambridge Biomedical Research Centre. Medtronic provided the continuous glucose monitoring system and sensors. Medtronic had no role in design of the study, the gathering of data, access to data, preparation of the manuscript or decision to publish the results

Maternal glycaemic control and risk of neonatal hypoglycaemia in Type 1 diabetes pregnancy: a secondary analysis of the CONCEPTT trial

Aims: To examine the relationship between maternal glycaemic control and risk of neonatal hypoglycaemia using conventional and continuous glucose monitoring (CGM) metrics in the Continuous Glucose Monitoring in Type 1 Diabetes Pregnancy Trial (CONCEPTT) participants. Methods: A secondary analysis of CONCEPTT involving 225 pregnant women and their liveborn infants. Antenatal glycaemia was assessed at 12, 24 and 34 weeks gestation. Intrapartum glycaemia was assessed by CGM measures 24 hours prior to delivery. The primary outcome was neonatal hypoglycaemia defined as glucose concentration 97.7th centile (63.2% vs 33.9%; p<0.0001) and skinfold thickness (p≤0.02). Intrapartum CGM was available for 33 participants, with no differences between mothers of neonates with and without hypoglycaemia. Conclusions: Modest increments in CGM time-in-target (5-7% increase) during the second and third trimesters are associated with reduced risk for neonatal hypoglycaemia. While more intrapartum CGM data are needed, the higher birthweight and skinfold measures associated with neonatal hypoglycaemia, suggest that risk is related to fetal hyperinsulinemia preceding the immediate intrapartum period

Drug delivery from a solid formulation during breastfeeding-A feasibility study with mothers and infants.

Funder: University of Cambridge WD Armstrong TrustFunder: University of Cambridge Kurt Hahn TrustFunder: Studienstiftung des Deutschen Volkes; funder-id: http://dx.doi.org/10.13039/501100004350BACKGROUND: Breastfeeding is critical to health outcomes, particularly in low-resource settings where there is little access to clean water. For infants in their first twelve months of life, the delivery of medications is challenging, and use of oral syringes to deliver liquid formulations can pose both practical and emotional challenges. OBJECTIVE: To explore the potential to deliver medicine to infants via a solid formulation during breastfeeding. METHODS: Single center feasibility study within a tertiary level neonatal unit in the UK, involving twenty-six breastfeeding mother-infant dyads. A solid formulation of Vitamin B12 was delivered to infants during breastfeeding. Outcomes included the quantitative change in serum vitamin B12 and assessment of maternal expectations and experiences. RESULTS: Delivery of Vitamin B12 through a solid formulation that dissolved in human milk did not impair breastfeeding, and Vitamin B12 levels rose in all infants from a mean baseline (range) 533 pg/mL (236-925 pg/mL) to 1871 pg/mL (610-4981 pg/mL) at 6-8 hours post-delivery. Mothers described the surprising ease of 'drug' delivery, with 85% reporting a preference over the use of syringes. CONCLUSIONS: Solid drug formulations can be delivered during breastfeeding and were preferred by mothers over the delivery of liquid formulations via a syringe

Protocol of a randomised controlled trial of real-time continuous glucose monitoring in neonatal intensive care 'REACT'.

INTRODUCTION: Hyperglycaemia is common in the very preterm infant and has been associated with adverse outcomes. Preventing hyperglycaemia without increasing the risk of hypoglycaemia has proved challenging. The development of real-time continuous glucose monitors (CGM) to inform treatment decisions provides an opportunity to reduce this risk. This study aims to assess the feasibility of CGM combined with a specifically designed paper guideline to target glucose control in the preterm infant. METHODS AND ANALYSES: The Real Time Continuous Glucose Monitoring in Neonatal Intensive Care (REACT) trial is an international multicentre randomised controlled trial. 200 preterm infants ≤1200 g and ≤24 hours of age will be randomly allocated to either real-time CGM or standard care (with blinded CGM data collection). The primary outcome is time in target 2.6-10 mmol/L during the study intervention assessed using CGM. Secondary outcomes include efficacy relating to glucose control, utility including staff acceptability, safety outcomes relating to incidence and prevalence of hypoglycaemia and health economic analyses. ETHICS AND DISSEMINATION: The REACT trial has been approved by the National Health Service Health Research Authority National Research Ethics Service Committee East of England (Cambridge Central); Medical Ethics Review Committee, VU University Medical Centre, Amsterdam, The Netherlands and the Research Ethics Committee, Sant Joan de Déu Research Foundation, Barcelona, Spain. Recruitment began in July 2016 and will continue until mid-2018. The trial has been adopted by the National Institute of Health Research Clinical Research Network portfolio (ID: 18826) and is registered with anInternational Standard Randomised Control Number (ISRCTN registry ID: 12793535). Dissemination plans include presentations at scientific conferences, scientific publications and efforts at stakeholder engagement. TRIAL REGISTRATION NUMBER: ISRCTN12793535; Pre-results

Antenatal Determinants of Childhood Obesity in High-Risk Offspring: Protocol for the DiGest Follow-Up Study.

Childhood obesity is an area of intense concern internationally and is influenced by events during antenatal and postnatal life. Although pregnancy complications, such as gestational diabetes and large-for-gestational-age birthweight have been associated with increased obesity risk in offspring, very few successful interventions in pregnancy have been identified. We describe a study protocol to identify if a reduced calorie diet in pregnancy can reduce adiposity in children to 3 years of age. The dietary intervention in gestational diabetes (DiGest) study is a randomised, controlled trial of a reduced calorie diet provided by a whole-diet replacement in pregnant women with gestational diabetes. Women receive a weekly dietbox intervention from enrolment until delivery and are blinded to calorie allocation. This follow-up study will assess associations between a reduced calorie diet in pregnancy with offspring adiposity and maternal weight and glycaemia. Anthropometry will be performed in infants and mothers at 3 months, 1, 2 and 3 years post-birth. Glycaemia will be assessed using bloodspot C-peptide in infants and continuous glucose monitoring with HbA1c in mothers. Data regarding maternal glycaemia in pregnancy, maternal nutrition, infant birthweight, offspring feeding behaviour and milk composition will also be collected. The DiGest follow-up study is expected to take 5 years, with recruitment finishing in 2026