25 research outputs found
Determination of EDTA in dried blood samples by tandem mass spectrometry avoids serious errors in newborn screening
Newborn screening programs use whole blood dried on filter paper as the standard specimen. Metabolites are reasonably stable and can easily be sent to screening laboratories by regular mail. The recommended sample collection procedure is to spot native blood without anticoagulants onto the filter paper, because anticoagulants can interfere with the different laboratory methods. However, visual examination of the blood spots cannot always detect contamination. In this study, whole blood was drawn by venous puncture from a healthy volunteer, spiked with the corresponding metabolites and EDTA, and spotted onto filter paper. TSH and 17alpha-hydroxyprogesterone were determined by time resolved fluoroimmunoassays with the AutoDelfia system. Total galactose, biotinidase activity, and galactose-1-phosphate uridyltransferase activity were measured photometrically or fluorometrically. Succinyl acetone was estimated indirectly through the inhibition of porphobilinogen synthase activity (PBGS assay). EDTA, amino acids, and acylcarnitines were converted to the corresponding butyl esters, after extraction with methanol, and analysed by LC-MS/MS. EDTA contamination gives falsely elevated 17-OHP values and falsely reduced TSH and PBGS values. The inclusion of an EDTA determination in routine screening revealed that at least 0.06% of newborn screening samples were contaminated with EDTA. In conclusion, non-conformity during the pre-analytical phase is a source of false positive and false negative screening results. Determination of EDTA from NBS blood spots can reliably identify these samples and prevent screening errors
Methionine adenosyltransferase (MAT) I/III deficiency with concurrent hyperhomocysteinaemia : two novel cases
This study reports three novel mutations of the methionine adenosyltransferase (MAT) lA gene and confirms that hyperhomocysteinaemia may be a characteristic finding in MAT I/III deficiency. Thus, MAT I/III deficiency is important in the differential diagnoses of hyperhomocysteinaemia, which may lead to clinical complications of MAT I/III deficiency
Newborn screening for isovaleric acidemia using tandem mass spectrometry: data from 1.6 million newborns
BACKGROUND:
Electrospray ionization-tandem mass spectrometry (ESI-MS/MS) has been used in the Bavarian newborn screening (NBS) program since 1999. The use of ESI-MS/MS has led to the inclusion of isovaleric acidemia (IVA) into NBS. We retrospectively evaluated data on more than 1.6 million newborns screened during 9.5 years.
METHODS:
Acylcarnitines from whole blood spotted on filter paper were converted to their corresponding butyl esters, and the samples were analyzed by use of ESI-MS/MS with stable isotope labeled internal standards.
RESULTS:
A total of 24 individuals with IVA were detected by use of a multiparametric threshold criteria panel including isovalerylcarnitine (C5) and the ratios of C5 to octanoyl-, butyryl-, and propionylcarnitine. A cutoff set at the 99.99th percentile for isolated C5 or at the 99th percentile for C5 plus at least 2 ratios resulted in a positive predictive value for IVA screening of 7.0% and an overall recall rate of 0.024%. Adjusted reference ranges for age and birth weight were applied, and the incidence of IVA in the study population was calculated to be 1 in 67,000. Missed cases were not brought to our attention. IVA was also detectable in cord blood and early postnatal blood samples.
CONCLUSIONS:
IVA can be reliably detected in NBS through acylcarnitine analysis in dried blood spots by using multiparametric threshold criteria. Further improvement (positive predictive value 13.0%, recall rate 0.01%) can be achieved by using more stringent recall criteria. In view of the potentially life-threatening natural course of IVA in early life, presymptomatic diagnosis may thus prevent mortality and morbidity