BACKGROUND: Insulin-resistant hyperglycaemia may occasionally complicate the clinical course of organic acidaemias. STUDY DESIGN: Clinical observation. RESULTS: Two term infants, one suffering from acute early-onset methylmalonic acidaemia, the other suffering from acute early-onset propionic acidaemia, presented acutely with dehydration, ketoacidosis, and hyperammonaemia. Urinary organic acid, plasma amino acids, and blood and plasma acylcarnitine analysis allowed the diagnosis of methylmalonic and propionic acidaemias. The detection of the novel c.481G>A (p.Gly161Arg) and the known c.655A>T (p.Asn219Tyr) MUT gene mutations identified the first patient as affected by methylmalonic acidaemia mut type. The high increase of propionylcarnitine after carnitine administration in both patients suggested a greatly elevated metabolic intoxication. Both newborns showed insulin-resistant hyperglycaemia. Patient 1 died, but patient 2, after a strong reduction of glucose administration, survived. To our knowledge, this is the only patient with this complication who survived. CONCLUSION: Insulin-resistant hyperglycaemia complicating neonatal onset of methylmalonic and propionic acidaemias is probably a marker of a serious disease. One patient with this complication survived after a strong reduction of glucose administration. Even if this is probably only a partial intervention, we hypothesize that in this situation a reduction of glucose administration can reduce almost the risk of persistent hyperglycaemia. Further studies are required to confirm our hypothesis.
BACKGROUND:Insulin-resistant hyperglycaemia may occasionally complicate the clinical course of organic acidaemias. STUDY DESIGN: Clinical observation. RESULTS: Two term infants, one suffering from acute early-onset methylmalonic acidaemia, the other suffering from acute early-onset propionic acidaemia, presented acutely with dehydration, ketoacidosis, and hyperammonaemia. Urinary organic acid, plasma amino acids, and blood and plasma acylcarnitine analysis allowed the diagnosis of methylmalonic and propionic acidaemias. The detection of the novel c.481G>A (p.Gly161Arg) and the known c.655A>T (p.Asn219Tyr) MUT gene mutations identified the first patient as affected by methylmalonic acidaemia mut type. The high increase of propionylcarnitine after carnitine administration in both patients suggested a greatly elevated metabolic intoxication. Both newborns showed insulin-resistant hyperglycaemia. Patient 1 died, but patient 2, after a strong reduction of glucose administration, survived. To our knowledge, this is the only patient with this complication who survived. CONCLUSION:Insulin-resistant hyperglycaemia complicating neonatal onset of methylmalonic and propionic acidaemias is probably a marker of a serious disease. One patient with this complication survived after a strong reduction of glucose administration. Even if this is probably only a partial intervention, we hypothesize that in this situation a reduction of glucose administration can reduce almost the risk of persistent hyperglycaemia. Further studies are required to confirm our hypothesis.
Authors: C Acquaviva; J F Benoist; I Callebaut; N Guffon; H Ogier de Baulny; G Touati; A Aydin; D Porquet; J Elion Journal: Eur J Hum Genet Date: 2001-08 Impact factor: 4.246
Authors: Federica Deodato; Sara Boenzi; Filippo M Santorelli; Carlo Dionisi-Vici Journal: Am J Med Genet C Semin Med Genet Date: 2006-05-15 Impact factor: 3.908
Authors: Monica Del Rizzo; Alfonso Galderisi; Andrea Celato; Francesca Furlan; Laura Giordano; Chiara Cazzorla; Ilaria Fasan; Carlo Moretti; Johannes Zschocke; Alberto B Burlina Journal: Eur J Pediatr Date: 2016-02-05 Impact factor: 3.183