Newborn screening analytes and structural birth defects among 27,000 newborns.

BACKGROUND: Emerging evidence suggests newborn screening analytes may yield insights into the etiologies of birth defects, yet no effort has evaluated associations between a range of newborn screening analytes and birth defects. METHODS: This population-based study pooled statewide data on birth defects, birth certificates, and newborn screening analytes from Texas occurring between January 1, 2007 and December 31, 2009. Associations between a panel of thirty-six newborn screening analytes, collected by the statewide Texas Newborn Screening Program, and the presence of a birth defect, defined as at least one of 39 birth defects diagnoses recorded by the Texas Birth Defects Registry, were assessed using regression analysis. FINDINGS: Of the 27,643 births identified, 20,205 had at least one of the 39 birth defects of interest (cases) as identified by the Texas Birth Defects Registry, while 7,438 did not have a birth defect (controls). Among 1,404 analyte-birth defect associations evaluated, 377 were significant in replication analysis. Analytes most consistently associated with birth defects included the phenylalanine/tyrosine ratio (N = 29 birth defects), tyrosine (N = 28 birth defects), and thyroxine (N = 25 birth defects). Birth defects most frequently associated with a range of analytes included gastroschisis (N = 29 analytes), several cardiovascular defects (N = 26 analytes), and spina bifida (N = 23 analytes). CONCLUSIONS: Several significant and novel associations were observed between newborn screening analytes and birth defects. While some findings could be consequences of the defects themselves or to the care provided to infants with these defects, these findings could help to elucidate mechanisms underlying the etiology of some birth defects.

Evidence and Recommendation for Guanidinoacetate Methyltransferase Deficiency Newborn Screening.

Guanidinoacetate methyltransferase (GAMT) deficiency is an autosomal recessive disorder of creatine biosynthesis due to pathogenic variants in the GAMT gene that lead to cerebral creatine deficiency and neurotoxic levels of guanidinoacetate. Untreated, GAMT deficiency is associated with hypotonia, significant intellectual disability, limited speech development, recurrent seizures, behavior problems, and involuntary movements. The birth prevalence of GAMT deficiency is likely between 0.5 and 2 per million live births. On the basis of small case series and sibling data, presymptomatic treatment with oral supplements of creatine, ornithine, and sodium benzoate, and a protein-restricted diet to reduce arginine intake, appear to substantially improve health and developmental outcomes. Without newborn screening, diagnosis typically happens after the development of significant impairment, when treatment has limited utility. GAMT deficiency newborn screening can be incorporated into the tandem-mass spectrometry screening that is already routinely used for newborn screening, with about 1 per 100 000 newborns screening positive. After a positive screen, diagnosis is established by finding an elevated guanidinoacetate concentration and low creatine concentration in the blood. Although GAMT deficiency is significantly more rare than other conditions included in newborn screening, the feasibility of screening, the low number of positive results, the relative ease of diagnosis, and the expected benefit of presymptomatic dietary therapy led to a recommendation from the Advisory Committee on Heritable Disorders in Newborns and Children to the Secretary of Health and Human Services that GAMT deficiency be added to the Recommended Uniform Screening Panel. This recommendation was accepted in January 2023.

Evidence and recommendation for mucopolysaccharidosis type II newborn screening in the United States.

Mucopolysaccharidosis type II (MPS II), also known as Hunter syndrome, is an X-linked condition caused by pathogenic variants in the iduronate-2-sulfatase gene. The resulting reduced activity of the enzyme iduronate-2-sulfatase leads to accumulation of glycosaminoglycans that can progressively affect multiple organ systems and impair neurologic development. In 2006, the US Food and Drug Administration approved idursulfase for intravenous enzyme replacement therapy for MPS II. After the data suggesting that early treatment is beneficial became available, 2 states, Illinois and Missouri, implemented MPS II newborn screening. Following a recommendation of the Advisory Committee on Heritable Disorders in Newborns and Children in February 2022, in August 2022, the US Secretary of Health and Human Services added MPS II to the Recommended Uniform Screening Panel, a list of conditions recommended for newborn screening. MPS II was added to the Recommended Uniform Screening Panel after a systematic evidence review reported the accuracy of screening, the benefit of presymptomatic treatment compared with usual case detection, and the feasibility of implementing MPS II newborn screening. This manuscript summarizes the findings of the evidence review that informed the Advisory Committee's decision.

Newborn screening for X-linked adrenoleukodystrophy: evidence summary and advisory committee recommendation.

The secretary of the US Department of Health and Human Services in February 2016 recommended that X-linked adrenoleukodystrophy (X-ALD) be added to the recommended uniform screening panel for state newborn screening programs. This decision was informed by data presented on the accuracy of screening from New York, the only state that currently offers X-ALD newborn screening, and published and unpublished data showing health benefits of earlier treatment (hematopoietic stem cell transplantation and adrenal hormone replacement therapy) for the childhood cerebral form of X-ALD. X-ALD newborn screening also identifies individuals with later-onset disease, but poor genotype-phenotype correlation makes predicting health outcomes difficult and might increase the risk of unnecessary treatment. Few data are available regarding the harms of screening and presymptomatic identification. Significant challenges exist for implementing comprehensive X-ALD newborn screening, including incorporation of the test, coordinating follow-up diagnostic and treatment care, and coordination of extended family testing after case identification.Genet Med 19 1, 121-126.

Evaluating Harms in the Assessment of Net Benefit: A Framework for Newborn Screening Condition Review.

BACKGROUND: The Department of Health and Human Services (HHS) Advisory Committee on Heritable Disorders in Newborns and Children ("Advisory Committee") makes recommendations to the HHS Secretary regarding addition of new conditions to the national Recommended Uniform Screening Panel for newborns. The Advisory Committee's decision-making process includes assessing the net benefit of screening for nominated conditions, informed by systematic evidence reviews generated by an independent Condition Review Workgroup. The evidence base regarding harms associated with screening for specific conditions is often more limited than that for benefits. PROCEDURES: The process for defining potential harms from newborn screening reviewed the frameworks from other public health evidence-based review processes, adapted to newborn screening by experts in systematic review, newborn screening programs and bioethics, with input from and approval by the Advisory Committee. MAIN FINDINGS: To support the Advisory Committee's review of nominated conditions, the Workgroup has developed a standardized approach to evaluation of harms and relevant gaps in the evidence. Types of harms include the physical burden to infants; psychosocial and logistic burdens to families from screening or diagnostic evaluation; increased risk of medical treatment for infants diagnosed earlier than children with clinical presentation; delayed diagnosis from false negative results; psychosocial harm from false positive results; uncertainty of clinical diagnosis, age of onset or clinical spectrum; and disparities in access to diagnosis or therapy. CONCLUSIONS: Estimating the numbers of children at risk, the magnitude, timing and likelihood of harms will be integrated into Workgroup reports to the Advisory Committee.

Decision-making process for conditions nominated to the recommended uniform screening panel: statement of the US Department of Health and Human Services Secretary's Advisory Committee on Heritable Disorders in Newborns and Children.

PURPOSE: The US Secretary of Health and Human Services provides guidance to state newborn screening programs about which conditions should be included in screening (i.e., the "Recommended Uniform Screening Panel"). This guidance is informed by evidence-based recommendations from the Secretary's Advisory Committee on Heritable Disorders in Newborns and Children. This report describes the Advisory Committee's revised decision-making process for considering conditions nominated to the panel. METHODS: An expert panel meeting was held in April 2012 to revise the decision matrix, which helps to guide the recommendation process. In January 2013, the Advisory Committee voted to adopt the revised decision matrix. RESULTS: The revised decision matrix clarifies the approach to rating magnitude and certainty of the net benefit of screening to the population of screened newborns for nominated conditions, and now includes the consideration of the capability of state newborn screening programs for population-wide implementation by evaluating the feasibility and readiness of states to adopt screening for nominated conditions. CONCLUSION: The revised decision matrix will bring increased quality, transparency, and consistency to the process of modifying the recommended uniform screening panel and will now allow formal evaluation of the challenges that state newborn screening programs face in adopting screening for new conditions.

Association between thyroxine levels at birth and choanal atresia or stenosis among infants in Texas, 2004-2007.

BACKGROUND: The causes of choanal atresia or stenosis (CA) are largely unknown. Infant thyroxine (T(4) ) levels collected during newborn screening may be proxy measures for a risk factor present during the critical period of development. Therefore, we conducted a case-control study to examine the association between newborn T(4) levels and CA. METHODS: Data for cases with CA and controls were obtained from the Texas Birth Defects Registry for the period of 2004 to 2007. Information on infant T(4) levels at birth was obtained from the Texas Newborn Screening Program. Controls (n = 3570) were drawn from unaffected births in Texas for the same period and frequency matched to cases (n = 69) on year of birth, then linked to the newborn screening database. Logistic regression was used to evaluate the association between continuous and categorical infant T(4) levels and nonsyndromic CA. RESULTS: After adjustment for gestational age and year of birth, infant T(4) levels were inversely associated with CA (adjusted odds ratio [AOR], 0.85; 95% confidence interval [CI], 0.80-0.90). We observed a linear trend (p < 0.001) across quartiles of T(4) ; compared to infants with low levels, AORs for CA were 0.50 (95% CI, 0.28-0.91), 0.39 (95% CI, 0.20-0.75), and 0.15 (95% CI, 0.06-0.40) for infants with medium-to-low, medium, and high levels, respectively. CONCLUSIONS: Our findings suggest a role of low thyroid hormone levels in the development of CA, or that low newborn T(4) levels are potential proxy measures of a risk factor present during the critical period. Birth Defects Research (Part A), 2012.

The association between neonatal thyroxine and craniosynostosis, Texas, 2004-2007.

BACKGROUND: Craniosynostosis (CS), a structural anomaly characterized by premature fusion of cranial sutures, occurs in 1 in 2000 live births. Associations of CS with the thyroid have been reported. Neonatal thyroid hormone (T4) is evaluated nationally at birth by the Newborn Screening Program (NBS). This study evaluated the relationship between NBS T4 levels and craniosynostosis. METHODS: Live-born singleton babies born in 2004 through 2007 were identified through the Texas Birth Defects Registry (499 cases) and Texas Bureau of Vital Statistics (3570 controls) and successfully linked to analyte data available in the Texas NBS Database. Cases were classified based on the absence of other major defects (isolated cases, n = 382) and suture(s) involved. Mean T4 levels were compared between controls and cases (overall and stratified by classification). T4 levels were stratified by quintiles to evaluate differences between cases and controls within quintiles. The diagnostic utility of NBS T4 was evaluated using receiver operator characteristic (ROC) curves. RESULTS: Mean T4 levels were lower in isolated cases (16.89 µg/dl) than in controls (17.77 µg/dl; p = 0.0004). This trend persisted for sagittal (16.69 µg/dl; p = 0.002) and metopic (16.83 µg/dl; p = 0.042) CS. When stratified by quintiles, 54% of isolated lambdoid CS were in the first quintile compared to controls (p = 0.012). ROC area under the curve (AUC) was approximately 0.55 for all classifications except lambdoid (AUC = 0.73). CONCLUSION: NBS T4 levels were slightly lower among cases with nearly half of all lambdoid CS having T4 levels in the lowest quintile. However, overall NBS T4 levels are not suitable for potential screening or diagnostic application.