TY - JOUR
T1 - Neonatal screening for biotinidase deficiency
T2 - Results of a 1-year pilot study
AU - Heard, Gregory S.
AU - Wolf, Barry
AU - Jefferson, Linda G.
AU - Weissbecker, Karen A.
AU - Nance, Walter E.
AU - Secor McVory, Julie R.
AU - Napolitano, Anthony
AU - Mitchell, Paige L.
AU - Lambert, Frank W.
AU - Linyear, Alice S.
N1 - Funding Information:
The enzyme biotinidase (EC 3.5.1.12) catalyzes the removal of biotin either from biocytin (e-N-biotinyl-L-lysine) or from the biotinylated peptides that result from the normal degradation of the four biotin-containing carboxylases, thereby releasing free biotin for recycling by the body?. 2 A deficiency in the activity of biotinidase is the Supported by National Foundation March of Dimes Grant 6-342 and by a grant from the Department of Health, Commonwealtho f Virginia. Submitted for publication May 20, 1985; accepted July 8, 1985. Reprint requests: Barry Wolf, M.D., Ph.D., Department of Human Genetics, Medical College of Virginia, P.O. Box 33, MCV Station, Richmond, VA 23298-0001.
PY - 1986/1
Y1 - 1986/1
N2 - We screened 81,243 infants born in Virginia during the 1-year period beginning Jan. 24, 1984, for deficiency of the enzyme biotinidase. A simple colorimetric screening procedure was used to detect the presence or absence of blotinidase activity on the same blood-soaked filter paper cards that are currently used in most neonatal metabolic screening programs. Two newborn infants with biotinidase deficiency were identified during the 12-month pilot study. In addition, two affected siblings of one of the newborn infants were detected through secondary family screening. On the basis of these results, the disorder appears to be at least as frequent as several others for which newborn screening is currently conducted. There were no known false-negative test results, and only 0.09% false-positive results that necessitated requests for second blood samples. False-positive test results can be readily identified by the use of a quantitative assay, which can also be used to confirm the diagnosis and to detect heterozygous family members in the case of true positives. On the basis of currently recognized criteria, biotinidase deficiency should be considered for inclusion among the metabolic disorders for which screening is performed in the neonatal period.
AB - We screened 81,243 infants born in Virginia during the 1-year period beginning Jan. 24, 1984, for deficiency of the enzyme biotinidase. A simple colorimetric screening procedure was used to detect the presence or absence of blotinidase activity on the same blood-soaked filter paper cards that are currently used in most neonatal metabolic screening programs. Two newborn infants with biotinidase deficiency were identified during the 12-month pilot study. In addition, two affected siblings of one of the newborn infants were detected through secondary family screening. On the basis of these results, the disorder appears to be at least as frequent as several others for which newborn screening is currently conducted. There were no known false-negative test results, and only 0.09% false-positive results that necessitated requests for second blood samples. False-positive test results can be readily identified by the use of a quantitative assay, which can also be used to confirm the diagnosis and to detect heterozygous family members in the case of true positives. On the basis of currently recognized criteria, biotinidase deficiency should be considered for inclusion among the metabolic disorders for which screening is performed in the neonatal period.
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U2 - 10.1016/S0022-3476(86)80766-1
DO - 10.1016/S0022-3476(86)80766-1
M3 - Article
C2 - 3944695
AN - SCOPUS:0022651847
SN - 0022-3476
VL - 108
SP - 40
EP - 46
JO - Journal of Pediatrics
JF - Journal of Pediatrics
IS - 1
ER -