Gel for Early Hypoglycaemia Prevention in Preterm Infants

Hypoglycemia in Newborn Infants Clinical Trial

— GEHPPI  

Official title:

Oral Dextrose Gel to Prevent Early Hypoglycaemia in Very Preterm Infants

Clinical Trial Details — Status: Recruiting

Administrative data

• NCT number: NCT04353713
• Other study ID #: 0062019
• Status: Recruiting
• Phase: N/A
• Start date: November 5, 2020
• Est. completion date: December 2022

Study information

• Verified date: September 2021
• Source: University College Dublin
• Contact: John P Kelleher, MB BCH MSPH
• Phone: 353-1-4085200
• Email: jkelleher[@]coombe.ie
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The GEHPPI study is a multicentre placebo controlled randomized controlled trial that aims to prevent early hypoglycaemia in preterm newborns born at ≤32 week's gestation. To do this we will prophylactically administer to these newborns either a small amount of dextrose 40% gel early as possible after birth via the buccal route in the delivery room or a placebo. We hope this dextrose gel will prevent hypoglycemia occurring during the time period needed for the newborns to be transported to the neonatal unit where they will have their venous access inserted. This trial aims to demonstrate that administering dextrose gel via the buccal route is a simple and rapid method of preventing early hypoglycaemia in this vulnerable patient group. This trial aims to show that giving dextrose gel via the buccal route is simple and feasible in this premature population. This trial aims to reduce the need for rescue intravenous dextrose (2ml/kg dextrose 10%) in those babies who are hypoglycaemic at the time of obtaining intravenous access.

Description:

Fetal glucose homeostasis in-utero has some very important characteristics: Kalhan et al. showed that from 20 weeks gestation onwards the lower limit for in-utero (foetal) glucose was 3 mmol/L over most of their remaining gestation (Kalhan et al., 1979); Secondly, foetal glucose control in-utero is completely dependent on maternal plasma glucose control and maternal insulin secretion (Stanley et al., 2015); Lastly, steady state glucose utilization rates in term neonates are 4 to 6 mg/min/kg, however at earlier gestational ages (both foetal and preterm infants) these values are higher 8-9 mg/min/kg (Hay, 2006) indicating that preterm infants need an early and reliable glucose source at birth. A local retrospective audit in our Level 3 Neonatal Unit (King et al., 2018) reviewed 90 patients who were born in-house ≤ 32 weeks gestation with birth weight ≤1500g over 12months in CWIUH (April 2016 - March 2017). Analysis showed that the first blood gas (at the time of first intravenous insertion) was at median 48mins (IQR 15min) life. Data showed that 30 of 90 patients (33.3%) had hypoglycaemia of <1.8 mmol/L at the time of first intravenous access. This hypoglycaemia is at a level below an operational threshold (level at which to intervene) most commonly accepted internationally. Recommendations from the Pediatric Endocrine Society (2015) are that for high-risk neonates (without a suspected congenital hypoglycaemia disorder), the goal of treatment is to maintain a plasma glucose concentration >2.8 mmol/L for those aged < 48hrs (grade 2+ evidence) (Thornton et al., 2015). However the American Academy of Pediatrics Committee on Fetus and Newborn advise that if asymptomatic, intravenous treatment of hypoglycaemia is not needed until glucose concentrations are < 1.4 mmol/L (within 4hrs after birth) or <2.0 mmol/L (from 4 to 24 h after birth) (Adamkin, 2011). However if symptomatic and blood glucose <2.2 mmol/L they recommend treating immediately (Adamkin, 2011). Regarding long-term outcomes, in 2006 Boluyt et al. performed the first systematic review of the evidence for neurodevelopmental impairment following hypoglycaemia in the first week of life. They felt that none of the 18 eligible studies identified provided a valid estimate of the effect of neonatal hypoglycaemia on neurodevelopment. The authors provided recommendations about an optimal study design (Boluyt et al., 2006). In 2018 Shah et al. performed a systematic review and meta-analysis which included neonates born ≥32 weeks gestation who had been screened for hypoglycaemia in the 1st week of life. The authors felt that tests of general development in infancy are unlikely to adequately assess the effects of neonatal hypoglycaemia on brain development, but instead future studies will require longer-term end points at least into mid-childhood, including specific tests of visual-motor and executive function (Shah et al., 2018). Despite the absence of consensus in the medical literature today, this study's investigators feel that tackling the problem of early hypoglycaemia in these very/extremely premature infants will allow a smoother transition from in-utero (foetal) to postnatal (ex-utero) glucose homeostasis. This may have important long-term neurodevelopmental consequences. Our study aims to tackle this problem of early hypoglycemia in these vulnerable newborns. To do this we will give these newborns a small amount of 40% dextrose gel as early as possible after birth via the buccal route. They will absorb the gel through the small blood vessels located on the inside of their cheeks & gums and it will enter their bloodstream quickly. We hope this gel will prevent hypoglycemia occurring during the time period needed for the newborns to be transported to the neonatal unit where they will have some form of venous access inserted. As this research is a trial we want to see if this dextrose gel has this beneficial effect or not. To do this we need to compare the dextrose gel to a non-sugar containing gel (called the "placebo"). The placebo gel will contain simple cellulose ingredient but does not contain sugar and will have no effect on blood glucose. Both gels used in the trial will look identical in appearance and neither the researcher nor the patient (nor parent/s) will know whether they received either the dextrose or the placebo gels. Which gel a newborn receives will be assigned at random, immediately prior to the birth. All newborns will be cared for in the same way according to best standard care. Newborns will not undergo any additional tests as part of the study. Blood glucose levels will be measured as per standard practice at the time vascular access is obtained. Blood glucose values will be measured on either a blood gas analyzer or laboratory glucose. Patient data collected as part of the study will be pseudo-anonymized/ anonymized and stored safely. Consent for participation can be withdrawn at any time.

Recruitment information / eligibility

• Status: Recruiting
• Enrollment: 534
• Est. completion date: December 2022
• Est. primary completion date: November 2022
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: All
• Age group: N/A to 30 Minutes

Eligibility

Inclusion Criteria:

• The study population will consist of infants born at = 32 weeks gestation. These may include singleton or multiples births.

Exclusion Criteria:

• Any newborn where comfort care (palliative approach) is planned for the care of the newborn following delivery. This will often be due to an antenatally diagnosed lethal and/or major congenital anomaly.

Related Conditions & MeSH terms

• Hypoglycemia
• Hypoglycemia in Newborn Infants

Intervention

Dietary Supplement:
• 40% Dextrose Gel
Prophylactic administration of 40% dextrose gel via buccal mucosa to prevent newborn hypoglycemia
• 2% carboxymethylcellulose gel
placebo

Locations

Country	Name	City	State
Czechia	University Hospital Motol	Praha
Ireland	Coombe Women & Infants University Hospital	Dublin
Ireland	Rotunda Hospital	Dublin
Ireland	The National Maternity Hospital	Dublin
Ireland	Galway University Hospital	Galway

Sponsors (1)

Lead Sponsor	Collaborator
University College Dublin

Countries where clinical trial is conducted

Czechia,  Ireland, 

References & Publications (7)

Boluyt N, van Kempen A, Offringa M. Neurodevelopment after neonatal hypoglycemia: a systematic review and design of an optimal future study. Pediatrics. 2006 Jun;117(6):2231-43. Review. — View Citation

Committee on Fetus and Newborn, Adamkin DH. Postnatal glucose homeostasis in late-preterm and term infants. Pediatrics. 2011 Mar;127(3):575-9. doi: 10.1542/peds.2010-3851. Epub 2011 Feb 28. Review. — View Citation

Hay WW Jr. Recent observations on the regulation of fetal metabolism by glucose. J Physiol. 2006 Apr 1;572(Pt 1):17-24. Epub 2006 Feb 2. Review. — View Citation

Kalhan SC, D'Angelo LJ, Savin SM, Adam PA. Glucose production in pregnant women at term gestation. Sources of glucose for human fetus. J Clin Invest. 1979 Mar;63(3):388-94. — View Citation

Shah R, Harding J, Brown J, McKinlay C. Neonatal Glycaemia and Neurodevelopmental Outcomes: A Systematic Review and Meta-Analysis. Neonatology. 2019;115(2):116-126. doi: 10.1159/000492859. Epub 2018 Nov 8. — View Citation

Stanley CA, Rozance PJ, Thornton PS, De Leon DD, Harris D, Haymond MW, Hussain K, Levitsky LL, Murad MH, Simmons RA, Sperling MA, Weinstein DA, White NH, Wolfsdorf JI. Re-evaluating "transitional neonatal hypoglycemia": mechanism and implications for management. J Pediatr. 2015 Jun;166(6):1520-5.e1. doi: 10.1016/j.jpeds.2015.02.045. Epub 2015 Mar 25. Review. — View Citation

Thornton PS, Stanley CA, De Leon DD, Harris D, Haymond MW, Hussain K, Levitsky LL, Murad MH, Rozance PJ, Simmons RA, Sperling MA, Weinstein DA, White NH, Wolfsdorf JI; Pediatric Endocrine Society. Recommendations from the Pediatric Endocrine Society for Evaluation and Management of Persistent Hypoglycemia in Neonates, Infants, and Children. J Pediatr. 2015 Aug;167(2):238-45. doi: 10.1016/j.jpeds.2015.03.057. Epub 2015 May 6. — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Proportion of newborns with initial hypoglycemia after birth	Proportion of newborns with an initial plasma glucose value below the operational threshold (<1.8 mmol/L) (32.4 mg/dl)(measured on blood gas machine or laboratory sample) at a time-point when initial intravascular access is successfully obtained by the clinical team	30-60 minutes after birth
Secondary	Proportion of newborns with a hypoglycaemia episode < 2.6mmol/L (46 mg/dl) within first 24hrs after birth	Any hypoglycemic episode < 2.6 mmol/l (46/mg/dl) within first 24 hours after birth	24 hours after birth
Secondary	Proportion of newborns with a hypoglycaemia episode <1.8mmol/L (32.4 mg/dl) within first 24hrs after birth	Any hypoglycaemia episode <1.8mmol/L (32.4 mg/dl) within first 24hrs after birth	24 hours after birth
Secondary	Number of episodes of hypoglycaemia <2.6mmol/L (46 mg/dl) within first 24hrs after birth	Number of episodes of hypoglycaemia <2.6mmol/L (46 mg/dl) within first 24hrs after birth	24 hours after birth
Secondary	Proportion of newborns with a hyperglycaemia episode > 10 mmol/L (180 mg/dl) within first 24hrs after birth	Proportion of newborns with a hyperglycaemia episode > 10 mmol/L (180 mg/dl) within first 24hrs after birth	24 hours after birth
Secondary	Proportion of newborns who received rescue IV dextrose within first 24hrs after birth	Number of subjects who received rescue IV dextrose (2ml/kg of Dextrose 10%) within first 24hrs after birth	24 hours after birth
Secondary	Tolerance of buccal gel in delivery room	Tolerance of buccal gel (dextrose/placebo): as defined by small/moderate/large spills from the mouth of the newborn	30 minutes after birth
Secondary	Incidence of symptomatic hypoglycaemia	This is defined by a modified Whipples Triad: (1) Presence of characteristic clinical manifestations (tremor, lethargy, coma, seizures) (2) coincident with low plasma glucose concentrations measured accurately with sensitive and precise methods, and (3) that the clinical signs resolve within minutes to hours once normoglycaemia has been re-established.	24 hours after birth
Secondary	Proportion of newborns who died within the first 12 hours after birth	Proportion of newborns who died due to any etiology within the first 12 hours after birth	12 hours after birth
Secondary	Proportion of newborns who died after 12 hours following birth but prior to discharge home	Proportion of newborns who died due to any etiology after 12 hours following birth but prior to discharge home or transfer to another hospital	6 months
Secondary	Incidence of early bacterial sepsis and/or meningitis	Incidence of early bacterial sepsis and/or meningitis. This is defined as a positive bacterial growth in either blood and/or cerebrospinal fluid anytime during first 3 days after birth.	First 3 days after birth
Secondary	Incidence of necrotising enterocolitis (NEC).	Incidence of NEC prior to discharge home or transfer to another hospital. NEC will be defined at either surgery, at post-mortem, or clinically and radiographically.	6 months
Secondary	Proportion of newborns with severe retinopathy of prematurity requiring treatment.	Proportion of newborns with severe retinopathy of prematurity requiring treatment. with either Bevacizumab (Avastin) and/or laser therapy. This will be prior to discharge home and/or transfer to another hospital.	6 months
Secondary	Proportion of newborns with severe (grade III/IV) intraventricular-germinal matrix hemorrhage (IVH-GMH).	Proportion of newborns with severe (grade III/IV) intraventricular-germinal matrix hemorrhage (IVH-GMH). This will be based upon any cranial ultrasound performed prior to discharge or transfer to another hospital.	6 months
Secondary	Proportion of newborns with periventricular leukomalacia (PVL).	Proportion of newborns with any degree of PVL. This will be based upon any cranial ultrasound performed prior to discharge or transfer to another hospital.	6 months