Abstract
Total parenteral nutrition (TPN) has been adapted as a standard for providing nutrition to ill term and preterm infants. The availability of tyrosine in amino acid preparations utilized for TPN is limited and may potentiate a tyrosine-deficient state. Phenlyalanine hydroxylase activity, responsible for catalyzing tyrosine synthesis, has been suggested to be decreased in fetal and neonatal animals. Parenterally nourished premature rabbits (n=16) and suckled rabbits (n=19) were studied in order to compare growth parameters and amino acids in the plasma and brain, as well as whole brain catecholamine concentrations. Influx velocities into the brain of amino acids were also determined in these two groups. The preterm rabbit's average birth weight (42.6±6.0) was less than that of term rabbits (56.7±8.7, P<0.005). Significantly lower concentrations of the catecholamine precursor tyrosine were found in both the plasma and brain of the parenterally nourished animals compared to the suckled animals. Tyrosine is reduced in the brain in TPN-supported animals reflecting both low tyrosine intake and increased plasma concentrations of large neutral amino acids that compete for uptake at the blood-brain barrier. However, no difference was observed between the two groups in their brain catecholamine concentrations. The seven-day parenterally nourished rabbit appears to be tyrosine-deficient but no evident effects on brain catecholamine concentrations were seen. The effects and impact of a tyrosine-deficient state might better be evaluated by regional evaluation of catecholaminergic areas of the brain or over a longer period of parenteral nutrition.
Original language | English (US) |
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Pages (from-to) | 619-626 |
Number of pages | 8 |
Journal | International Journal of Developmental Neuroscience |
Volume | 13 |
Issue number | 6 |
DOIs | |
State | Published - Oct 1995 |
Externally published | Yes |
Keywords
- amino acids
- catecholamine
- development
- nutrition
- parenteral nutrition
- phenylalanine
- tyrosine
ASJC Scopus subject areas
- Developmental Neuroscience
- Developmental Biology