ObjectiveIn pediatric cardiac surgery, fluid-restricted low-protein (LoProt) diets account for cumulative protein deficits with increased morbidity. In this setting, we aimed to inhibit proteolysis by a high-carbohydrate (HiCarb)-intake–induced hyperinsulinemia and improve protein balance. MethodsThe effect of a HiCarb/LoProt (glucose 10 mg · kg−1 · min−1/protein 0.7 g · kg−1 · d−1) versus a normal-carbohydrate (NormCarb)/LoProt (glucose 7.5 mg · kg−1 · min−1/protein 0.3 g · kg−1 · d−1) enteral diet on whole-body protein breakdown and balance was compared in a prospective, randomized, single-blinded trial in 24 children after cardiac surgery. On the second postoperative day, plasma insulin and amino acid concentrations, protein breakdown (endogenous rate of appearance of valine), protein synthesis (non-oxidative disposal of valine), protein balance, and the rate of appearance of urea were measured by using an isotopic infusion of [1-13C]valine and [15N2]urea. ResultsThe HiCarb/LoProt diet led to a serum insulin concentration that was three times higher than the NormCarb/LoProt diet (596 pmol/L, 80–1833, and 198 pmol/L, 76–1292, respectively, P = 0.02), without differences in plasma glucose concentrations. There were no differences in plasma amino acid concentrations, non-oxidative disposal of valine, and endogenous rate of appearance of valine between the groups, with a negative valine balance in the two groups (−0.65 μmol · kg−1 · min−1, −1.91 to 0.01, and −0.58 μmol · kg−1 · min−1, −2.32 to −0.07, respectively, P = 0.71). The serum cortisol concentration in the HiCarb/LoProt group was lower compared with the NormCarb/LoProt group (204 nmol/L, 50–544, and 532 nmol/L, 108–930, respectively, P = 0.02). ConclusionIn children with fluid restriction after cardiac surgery, a HiCarb/LoProt diet compared with a NormCarb/LoProt diet stimulates insulin secretion but does not inhibit proteolysis further and therefore cannot be advocated for this purpose.
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