ESPE2023 Poster Category 1 Adrenals and HPA Axis (40 abstracts)
1The Jesse Z and Sara Lea Shafer Institute for Endocrinology and Diabetes, National Center for Childhood Diabetes, Schneider Children’s Medical Center of Israel, Petach Tikva, Israel. 2Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel
Background: Hypoglycemia etiology in children is heterogeneous and varies by age. Both growth hormone (GH) and cortisol deficiencies may present with hypoglycemia; the latter may result in an adrenal crisis that may be fatal.
Objectives: To evaluate responses of cortisol and GH to spontaneous hypoglycemia in infants and children, and to assess the rate of true cortisol deficiency in children, defined as cortisol<500 nmol/l.
Study design: This retrospective study included 127 children (0-18 years old) who presented with hypoglycemia during 1992-2022, and who had a serum laboratory glucose level ≤50 mg%.
Results: Cortisol <500 nmol/l was detected in critical samples of 50% (n=64) of the patients, and cortisol <270 nmol/L in 12.2% (n=29). A normal cortisol response to Synacthen stimulation was observed in 93.7% (n=119). Compared to the rest of the cohort, among children with cortisol levels <500 nmol/L, the median GH level in the critical samples was higher (6.0 vs. 3.4 ng/ml, P<0.037), and insulin was detected more frequently (59.6% vs. 35.6%, P<0.011). No other biochemical or clinical differences were observed between these groups. A critical sample cortisol level was associated with fast test nadir cortisol (r= 0.574; P<0.001) and Synacthen stimulated cortisol (r= 0.448; P=0.004), but not with age (r= -0.009; P=0.922) or with glucose (r= 0.025; P=0.802), insulin (r= -0.122; P=0.206) or GH (r= -0.163; P=0.088) levels measured in critical samples. Critical sample GH levels were inversely related to age (r= -0.322; P<0.001) and measured glucose (r= -0.431; P<0.001), but not to critical sample cortisol or height-SDS (r= 0.021; P=0.836). True cortisol deficiency was diagnosed in 4.3% (n= 8). Four had multiple pituitary deficiency. The other diagnoses were: primary adrenal insufficiency (n=1), IGF1 receptor mutation (n=1), fructose 1,6 diphosphatase deficiency (n=1) and transient hyperinsulinism (n=1).
Conclusions: While an insufficient cortisol response to hypoglycemia is common among children, true cortisol deficiency is uncommon. As no one clinical parameter can diagnose cortisol deficiency, a Synacthen stimulation test should be performed to rule out adrenal insufficiency.