Abstract
The adaptive response of whole body leucine metabolism to nutritional supplementation was determined in 6 adolescents with Crohn's disease and growth failure. Five healthy adolescents served as controls for body composition studies. In the first study period, all subjects received a constant diet comparable to usual intakes. In the second period, the patients were given overnight intragastric supplemental feedings that increased dietary protein and energy intakes approximately 40% (to 3.2 g/kg · day and 96 kcal/kg · day, respectively). During each dietary period, O2 consumption, nitrogen balance, whole body potassium (40K), and urinary creatinine measurements were obtained on all adolescents, and the patients received a primed, constant, intravenous infusion of [13C]leucine for 4 h in the fed state. Plasma leucine and expired carbon dioxide 13C-enrichments were determined by mass spectrometric techniques. In the first study, O2 consumption and nitrogen balances were similar between groups; in patients, 40K and urinary creatinine were reduced by 30% and 36%, respectively. With nutritional supplementation, nitrogen balance increased fourfold; O2 consumption and 40K increased by 32% and 10%, respectively. Similarly, whole body leucine flux increased from 166.9 ± 5.9 to 201.3 ± 11.2 μmol/kg · h (p < 0.05) due to a 66% increase in leucine incorporation into body protein (p < 0.01) and a 41% decrease in leucine oxidation (p < 0.05). Thus, these studies demonstrate that the mechanisms responsible for lean body mass accretion during nutritional supplementation in adolescents with Crohn's disease and growth failure are increased rates of amino acid incorporation into body protein (via protein synthesis] and decreased rates of amino acid oxidation.
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