Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:1.3.99.3 (
acyl-CoA dehydrogenase
)
1,425
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In Greece, the National Newborn Screening Program was initiated in 1974 and is performed by the Institute of Child Health (ICH). However, there is a complete absence of conditions that have high rates of mortality and a relatively high prevalence listed in the Catalogue of Disorders screened by the ICH. Our laboratory has expanded the existing
NBS
program to include newborn screening for inborn errors of metabolism, screening for cystic fibrosis (the most common congenital disorder in the Greek population), congenital adrenal hyperplasia, and for biotinidase deficiency. From July 2007 to December 2009, 45,000 dried blood spots (DBS) were collected from infants born in Athens, Greece, and were analyzed. We present a report of our 30-month experience in the newborn screening area. The samples were tested for amino acidopathies, fatty acid oxidation disorders (FAOD), and organic acid metabolic disorders by applying flow injection analysis-electrospray ionization-tandem mass spectrometry (FIA-ESI-MS/MS); for cystic fibrosis by immunoreactive trypsinogen (IRT) measurement (time-resolved fluoroimmunoassay); for congenital adrenal hyperplasia by fluoroimmunoassay to measure the 17 hydroxy-progesterone level; and for biotinidase deficiency using a colorimetric method and a semiquantitative fluoroimmunoassay to determine biotinidase activity. Sample analysis resulted in establishing cutoff values for the respective disease markers for the first time in the Greek population. Four infants were identified with cystic fibrosis, two with congenital adrenal hyperplasia, two with phenylketonuria (PKU), one with medium-chain
acyl CoA dehydrogenase
deficiency (MCADD), and one with biotinidase deficiency. To the best of our knowledge, this is the first article reporting the status of expanded newborn screening in Greece.
...
PMID:Expanded newborn screening in Greece: 30 months of experience. 2072 92
Carnitine transporter defect (CTD; also known as systemic primary carnitine deficiency; MIM 212140) is due to mutations in the SLC22A5 gene and leads to extremely low carnitine levels in blood and tissues. Affected individuals may develop early onset cardiomyopathy, weakness, or encephalopathy, which may be serious or even fatal. The disorder can be suggested by newborn screening. However, markedly low newborn carnitine levels can also be caused by conditions unrelated to CTD, such as the low carnitine levels often associated with normal pregnancies and some metabolic disorders occurring in the mother. In order to clarify the biochemical characteristics most useful for identification of CTD in newborns, we examined California Department of Public Health newborn screening data for CTD from 2005 to 12 and performed detailed chart reviews at six metabolic centers in California. The reviews covered 14 cases of newborn CTD, 14 cases of maternal disorders (CTD, 6 cases; glutaric aciduria, type 1, 5; medium-chain
acyl CoA dehydrogenase
deficiency, 2; and cobalamin C deficiency, 1), and 154 false-positive cases identified by newborn screening. Our results show that newborns with CTD identified by
NBS
exhibit different biochemical characteristics, compared to individuals ascertained clinically. Newborns with CTD may have
NBS
dried blood spot free carnitine near the lower cutoff and confirmatory plasma total and free carnitine levels near the normal lower limit, particularly if obtained within two weeks after birth. These findings raise the concern that true cases of CTD may exist that could have been missed by newborn screening. CTD should be considered as a possible diagnosis in cases with suggestive clinical features, even if CTD was thought to be excluded in the newborn period. Maternal plasma total carnitine and newborn urine total carnitine values are the most important predictors of true CTD in newborns. However, biochemical testing alone does not yield a discriminant rule to distinguish true CTD from low carnitine in newborns due to other causes. Because of this biochemical variability and overlap, molecular genetic testing is imperative to confirm CTD in newborns. Additionally, functional testing of fibroblast carnitine uptake remains necessary for cases in which other confirmatory testing is inconclusive. Even with utilization of all available diagnostic testing methods, confirmation of CTD ascertained by
NBS
remains lengthy and challenging. Incorporation of molecular analysis as a second tier step in
NBS
for CTD may be beneficial and should be investigated.
...
PMID:Biochemical characteristics of newborns with carnitine transporter defect identified by newborn screening in California. 2871 8
