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stimulation (250 μg) test to confi rm the diagnosis of CAH. The role of genetic
analysis in neonatal screening is limited. A scheme for neonatal screening of
CAH is depicted in the fi gure given below (Fig. 10.8 ).- What is the rationale of two-tier screening program for CAH?
The incidence of classical CAH is 1 in 16,000–20,000. Although the cutoff of
17(OH)P in the fi rst-tier screening provides a very high sensitivity (98.9 %) and
specifi city (99.6 %), the positive predictive value is very low (1 %). This means
99 out of 100 positive tests are false positive. Hence, to improve the positive
predictive value, a second-tier test (LC-MS/MS) is employed. Estimation of
17(OH)P by LC-MS/MS is expensive, labor intensive, and time consuming;
therefore, it is not preferred as a fi rst-line screening test, when the test needs to
be carried out on a large number of samples.- What are the fallacies of estimation of 17(OH)P as a screening test for CAH?
Serum 17(OH)P is elevated in the fi rst 2 days of life as a result of physiological
neonatal surge; hence, estimation of 17(OH)P is unreliable as a screening test,Neonatal screening for CAHSerum 17(OH)P (immunoassay)- 3rd day of life
- 0800-0900h
NormalNo further work-upElevated
(> 99th percentile for gestational age)Serum 17OHP(LC-MS/MS)ElevatedNo symptomsACTH stimulation test (250 μg)>100 ng/ml
CAH15–100ng/ml
NCCAH3–15ng/ml
Heterozygote<3ng/ml
NormalSymptoms and/or
hyperkalemiaTreat as CAHNormalNo further work-up1 st tier2 nd tierFig. 10.8 Newborn screening for CAH
10 Congenital Adrenal Hyperplasia