A retrospective review of the association between maternal body mass index and the risk of congenital anomalies.

The objective of the study was to examine the association of congenital anomalies with the specific classes of pre-pregnancy BMI. An IRB-approved retrospective cohort study was performed using the data from the Natality Public Use File from the National Center for Health Statistics (2019). We included all singleton live births and excluded pregnancies with suspected or confirmed chromosomal abnormalities and people with pre-existing diabetes mellitus and missing pertinent data. The primary outcome was the incidence of any major congenital anomalies in liveborn infants. The incidence of anomaly was analyzed across all BMI classes, using individuals with BMI between 18.5 and 24.9 kg/m2 as the comparison group. A test of trend was also performed to determine if the risk increased as the BMI class increased. A total of 3 047 382 maternal-neonatal dyads were included in the analysis. A non-significant higher incidence of any major anomaly was noted among people who had underweight and class III BMI. The risk of open neural tube defects, omphalocele, and cleft lip/palate increased and the risk of gastroschisis decreased with an increase in maternal BMI class (p < 0.05). The incidence of congenital anomalies increases as the pre-pregnancy BMI increases. Individuals should be encouraged to optimize their weight prior to conception and if feasible, they should obtain screening for fetal anatomy assessment by a Maternal-Fetal Medicine specialist.

Dimensionality of Helicopter Parenting and Relations to Emotional, Decision-Making, and Academic Functioning in Emerging Adults.

The current study tests the underlying structure of a multidimensional construct of helicopter parenting (HP), assesses reliability of the construct, replicates past relations of HP to poor emotional functioning, and expands the literature to investigate links of HP to emerging adults' decision-making and academic functioning. A sample of 377 emerging adults (66% female; ages 17-30; 88% European American) were administered several items assessing HP as well as measures of other parenting behaviors, depression, anxiety, decision-making style, grade point average, and academic functioning. Exploratory factor analysis results suggested a four-factor, 23-item measure that encompassed varying levels of parental involvement in the personal and professional lives of their children. A bifactor model was also fit to the data and suggested the presence of a reliable overarching HP factor in addition to three reliable subfactors. The fourth subfactor was not reliable and item variances were subsumed by the general HP factor. HP was found to be distinct from, but correlated in expected ways with, other reports of parenting behavior. HP was also associated with poorer functioning in emotional functioning, decision making, and academic functioning. Parents' information-seeking behaviors, when done in absences of other HP behaviors, were associated with better decision making and academic functioning.

Matchmaking facilitates the diagnosis of an autosomal-recessive mitochondrial disease caused by biallelic mutation of the tRNA isopentenyltransferase (TRIT1) gene.

Deleterious variants in the same gene present in two or more families with overlapping clinical features provide convincing evidence of a disease-gene association; this can be a challenge in the study of ultrarare diseases. To facilitate the identification of additional families, several groups have created "matching" platforms. We describe four individuals from three unrelated families "matched" by GeneMatcher and MatchMakerExchange. Individuals had microcephaly, developmental delay, epilepsy, and recessive mutations in TRIT1. A single homozygous mutation in TRIT1 associated with similar features had previously been reported in one family. The identification of these individuals provides additional evidence to support TRIT1 as the disease-causing gene and interprets the variants as "pathogenic." TRIT1 functions to modify mitochondrial tRNAs and is necessary for protein translation. We show that dysfunctional TRIT1 results in decreased levels of select mitochondrial proteins. Our findings confirm the TRIT1 disease association and advance the phenotypic and molecular understanding of this disorder.

Military Health Care Dilemmas and Genetic Discrimination: A Family's Experience with Whole Exome Sequencing.

Whole-exome sequencing (WES) has increased our ability to analyze large parts of the human genome, bringing with it a plethora of ethical, legal, and social implications. A topic dominating discussion of WES is identification of "secondary findings" (SFs), defined as the identification of risk in an asymptomatic individual unrelated to the indication for the test. SFs can have considerable psychosocial impact on patients and families, and patients with an SF may have concerns regarding genomic privacy and genetic discrimination. The Genetic Information Nondiscrimination Act of 2008 (GINA) currently excludes protections for members of the military. This may cause concern in military members and families regarding genetic discrimination when considering genetic testing. In this report, we discuss a case involving a patient and family in which a secondary finding was discovered by WES. The family members have careers in the U.S. military, and a risk-predisposing condition could negatively affect employment. While beneficial medical management changes were made, the information placed exceptional stress on the family, who were forced to navigate career-sensitive "extra-medical" issues, to consider the impacts of uncovering risk-predisposition, and to manage the privacy of their genetic information. We highlight how information obtained from WES may collide with these issues and emphasize the importance of genetic counseling for anyone undergoing WES.

Polymicrogyria in a 10-month-old boy with Mowat-Wilson syndrome.

Mowat-Wilson syndrome (MWS, OMIM# 235730) is a multiple congenital anomaly disorder characterized by intellectual disability, seizures, microcephaly, and distinct facial features. Additional findings include structural brain abnormalities, eye defects, congenital heart defects, Hirschsprung disease (HSCR), and genitourinary anomalies. It is caused by de novo heterozygous mutations or deletions of the ZEB2 gene on chromosome 2q21-q23. We report here on a 10-month-old boy with typical features of MWS who presented with the novel finding of polymicrogyria on brain magnetic resonance imaging. We also review the current literature regarding central nervous system anomalies in MWS.

Chromosome 1p36.22p36.21 duplications/triplication causes Setleis syndrome (focal facial dermal dysplasia type III).

Focal facial dermal dysplasias (FFDD) are characterized by congenital bitemporal or preauricular atrophic skin lesions, and either autosomal dominant or autosomal recessive inheritance. Setleis syndrome (SS), FFDD type III, is a severe form of FFDD with the ectodermal lesions plus other striking facial features. Autosomal recessive nonsense and frameshift mutations in TWIST2 have been found to cause SS in some but not all individuals. Here, we report on four unrelated individuals, one with an unclassified FFDD and the other three with classic SS. Chromosomal microarray analyses revealed unique copy number variants of 1p36 in two individuals with duplications at 1p36.22p36.21 and one with a triplication at 1p36.22p36.21. The fourth patient had normal chromosomes by microarray analysis. All four patients had normal TWIST2 exonic sequences. We propose that a dosage effect of one or more of the 30 genes in the 1.3 Mb 1p36.22p36.21 region of overlap is responsible for FFDD/SS manifestations in some individuals, and this mechanism would be inherited as an autosomal dominant trait. In patients with no duplication/triplication of the 1p36.22p36.21 region and no mutations in TWIST2, there are mutation(s) in one of the 30 genes in this region or mutations in other as yet unidentified genes at different locations that may affect the expressions of genes in this region or act independently to cause this developmental disease phenotype.

Mosaic trisomy 15 in a liveborn infant.

With only a small number of cases in the medical literature, mosaic trisomy 15 in liveborn infants is very rare. Despite its rarity, similar features among individuals have been described, including intrauterine growth retardation, craniofacial abnormalities and facial dysmorphisms, cardiac disease, and other organ anomalies. Very few liveborns have survived the first year of life. We report here on a term infant with growth restriction and multiple congenital anomalies who was found to have mosaic trisomy 15. The proband presented with some frequently reported findings such as dysmorphic facies and overlapping fingers, and the uncommon finding of whorled hypopigmentation. Previously unreported findings include abnormal cerebral vasculature and dysplastic kidneys. We add this new phenotypic information to widen the spectrum previously reported and provide a review of the literature to date.

Three clinical experiences with SNP array results consistent with parental incest: a narrative with lessons learned.

Single nucleotide polymorphism microarrays have the ability to reveal parental consanguinity which may or may not be known to healthcare providers. Consanguinity can have significant implications for the health of patients and for individual and family psychosocial well-being. These results often present ethical and legal dilemmas that can have important ramifications. Unexpected consanguinity can be confounding to healthcare professionals who may be unprepared to handle these results or to communicate them to families or other appropriate representatives. There are few published accounts of experiences with consanguinity and SNP arrays. In this paper we discuss three cases where molecular evidence of parental incest was identified by SNP microarray. We hope to further highlight consanguinity as a potential incidental finding, how the cases were handled by the clinical team, and what resources were found to be most helpful. This paper aims to contribute further to professional discourse on incidental findings with genomic technology and how they were addressed clinically. These experiences may provide some guidance on how others can prepare for these findings and help improve practice. As genetic and genomic testing is utilized more by non-genetics providers, we also hope to inform about the importance of engaging with geneticists and genetic counselors when addressing these findings.