RT Journal Article SR Electronic T1 G100(P) Hyperinsulinaemic Hypoglycaemia of Short Duration – Can It Be Associated with Severe Hypoglycaemic Brain Injury? JF Archives of Disease in Childhood JO Arch Dis Child FD BMJ Publishing Group Ltd and Royal College of Paediatrics and Child Health SP A48 OP A48 DO 10.1136/archdischild-2013-304107.112 VO 98 IS Suppl 1 A1 Gilbert, C A1 Morgan, K A1 Hinchey, L A1 Shah, P A1 Hussain, K YR 2013 UL http://adc.bmj.com/content/98/Suppl_1/A48.2.abstract AB Background Neurological damage is a known risk associated with hyperinsulinaemic hypoglycaemia (HH). Insulin suppresses ketone body formation and hence no alternative fuels are available for the brain to use; however it is not yet known how long HH has to last to cause brain injury. We report that neurological damage can occur after a short time in term, normal weight infants with diazoxide responsive HH. Aim To describe the clinical course and neurological outcome of 3 term neonates with severe hypoglycaemic brain injury who were not diagnosed with HH for at least 72 hours. Methodology 3 patients who presented in the neonatal period with biochemically confirmed HH were recruited. Detailed clinical information was collected including MRI brain reports. Results All three term neonates were discharged home after 24–36 hours of birth. Birth weight range was 2730–3460 gms and each delivery was classified as normal vaginal births with no associated risk factors for HH. All infants presented to the Emergency department on day 3 to 4 of life with non-specific symptoms like poor feeding and lethargy. However all of them were noted to have jerky and seizure like movements. Biochemically, all had their true blood glucose levels less than 0.6 mmols/L with raised insulin and suppressed ketone body formation They all successfully responded to small doses (5mg/kg/day) of Diazoxide (two of them are off Diazoxide now and had transient hyperinsulinism). Each neonate had MRI brain due to clinical neurological concerns within the first few weeks of life that showed significant evidence of hypoglycaemic brain injury like gross white matter changes with parieto-occipital infarcts. Conclusion It is very important for early identification and prompt management of HH as untreated severe hypoglycaemia can result in severe brain injury and subsequent neurodevelopmental handicap. Term infants with no risk factors are often difficult to identify due to non-specific symptoms. Parental education to recognise early symptoms of hypoglycaemia would be recommended and prompt medical advice should be sought. Blood glucose levels should be of utmost priority for babies presenting to A&E with non specific symptoms such as poor feeding/lethargy etc.