Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
Compound
Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ten very low birth weight (VLBW) infants (birth weight: 994 +/- 66 g, gestational age: 27 +/- 0.5 wk) requiring total parenteral nutrition (TPN) were studied in order to evaluate their metabolic response to the amino acid solution Travasol 10% blend C. These patients received the solution at a constant rate, providing 2.61 +/- 0.02 g/kg/day of amino acids and 76 +/- 1 kcal/kg/day. Plasma amino acids analysis was performed after 4.6 +/- 0.3 day of infusion and compared to values reported previously with Travasol blend B. The new solution (blend C) showed a significantly lower (p less than 0.001) glycinemia (485 +/- 24 vs 993 +/- 69 mumol/liter), methioninemia (39 +/- 2 vs 114 +/- 12 mumol/liter) and
phenylalaninemia
(67 +/- 3 vs 92 +/- 5 mumol/liter) related to the lower intake of these amino acids. Despite the provision of 47.5 mmol/liter of serine with blend C no changes in plasma level (182 +/- 15 vs 196 +/- 41 mumol/liter) were noted. The increased molar arginine/glycine ratio (blend C: 0.48 vs blend B 0.22) could have contributed to keep ammoniemia within normal levels (55.1 +/- 4.2 mumol/liter). Wide variations in insulin response (9.9 to 26.4 microU/ml) allowed for a correlation between its plasma concentration and those of sensitive amino acids, underlining its role in protein metabolism. Despite the
immaturity
of the study population no short-term metabolic imbalance has been encountered with the Travasol blend C solution.
...
PMID:Total parenteral nutrition in very low birth weight infants with Travasol 10% blend C. 308 89
Phenylketonuria
can now be detected during the first few days of life by two reliable mass screening techniques; and its major consequence, severe mental retardation, can be prevented by the early institution of a low phenylalanine diet. Case finding, based on determination of phenylalanine serum levels in newborns before discharge from the hospital, appears to yield an acceptable number of new cases without excessive numbers of false positive or false negative tests at the 4 mg per 100 ml reporting level. Feeding history does not appear to be a major factor in influencing test results. In addition to finding cases of
phenylketonuria
, newborn blood screening has called attention to another group of infants with hyperphenylalaninemia of other causes. The differential diagnosis in such cases is important because the restrictive diet necessary for patients with
phenylketonuria
might be harmful to others. Such factors as enzymatic
immaturity
, heterozygote carriers, maternal enzymatic capacities and other amino-acidemic states must be ruled out by thorough examination. Careful observation, investigation and reporting of experience with these patients will help to eliminate some of the present deficiencies in the knowledge of normal and abnormal amino acid metabolism.
...
PMID:Phenylketonuria. Early detection, diagnosis and treatment. 594 92
Hyperphenylalaninemia in preterm neonates with heterozygosity for
phenylketonuria
has previously not been described. We report on a very low birth weight infant, born at a gestational age of 27+5 weeks with a birth weight of 1080 g. Due to a positive family history prenatal diagnosis for
phenylketonuria
was performed, revealing heterozygosity for classic
phenylketonuria
. Yet the girl showed hyperphenylalaninemia with a maximum serum phenylalanine concentration of 515 micromol/l on the eighth day of life. Phenylalanine-restrictive parenteral and enteral nutrition was kept from the eighth until the 41st day of life. At term serum phenylalanine concentrations had normalized. We hypothesize that heterozygosity for
phenylketonuria
may be a risk factor for hyperphenylalaninemia in preterm born infants. Prematurity and the resulting
immaturity
of liver function with the genetically determined reduced activity of phenylalanine hydroxylase might have caused hyperphenylalaninemia in this girl.
...
PMID:Hyperphenylalaninemia in a premature infant with heterozygosity for phenylketonuria. 1534 30
Newborn screening (NBS) is the largest public health program in the United States, affecting every newborn. The purpose of newborn screening is to identify newborns at risk for selected disorders during the presymptomatic phase, with the hope that early intervention can prevent disease progression. NBS began in the early 1960s following the pioneering work of Robert Guthrie with
phenylketonuria
. Since then, NBS has expanded, with testing available for more than 50 disorders in most states. Screening tests need to be highly automated, with high sensitivity and specificity to avoid missing patients with disease, and ensuring manageable false-positive rates. Current initiatives in NBS include timeliness to ensure that results of the screen are available by 5 days after birth for a core set of critical conditions. This has resulted in the current recommendation for
NBS specimens to be collected at 24 to 48 hours after birth.
False-positive rates are higher in the NICU, because of the metabolic instability of sick neonates and the
immaturity
of premature enzyme systems. The recommended uniform screen panel (RUSP) contains the current list of disorders screened for by most states. Additional disorders continue to be added to the RUSP as medical progress allows previously untreatable disorders to be managed successfully, and thus the need to screen emerges. The costs associated with NBS continue to climb, because despite state-mandated screening, the diagnostic evaluation and treatment of these conditions has no such mandate. This is a particular concern for disorders with annual treatment costs of several hundred thousand dollars.
...
PMID:Navigating Newborn Screening in the NICU: A User's Guide. 3126 Oct 80
