Survival and decannulation across indications for infant tracheostomy: a twelve-year single-center cohort study.

OBJECTIVE: Describe survival and decannulation following infant tracheostomy based on indication for tracheostomy placement. STUDY DESIGN: Retrospective cohort study of infants who received tracheostomy at a single pediatric hospital over a twelve-year period. Primary and secondary indications were categorized into pulmonary, anatomic, cardiac, neurologic/musculoskeletal, and others. RESULTS: A total of 378 infants underwent tracheostomy; 323 had sufficient data to be included in analyses of post-discharge outcomes. Overall mortality was 26.3%; post-operative and post-discharge mortality differed across primary indications (P = 0.03 and P = 0.005). Among survivors, 69.3% decannulated at a median age of 3.0 years (IQR 2.3, 4.5 years). Decannulation among survivors varied across primary indications (P = 0.002), ranging from 17% to 75%. In multivariable analysis, presence of a neurologic or musculoskeletal indication for tracheostomy was a significant negative predictor of future decannulation (aOR 0.10 [95% CI 0.02-0.44], P = 0.003). CONCLUSIONS: Early childhood outcomes vary across indications for infant tracheostomy.

Human Placental Transcriptome Reveals Critical Alterations in Inflammation and Energy Metabolism with Fetal Sex Differences in Spontaneous Preterm Birth.

A well-functioning placenta is crucial for normal gestation and regulates the nutrient, gas, and waste exchanges between the maternal and fetal circulations and is an important endocrine organ producing hormones that regulate both the maternal and fetal physiologies during pregnancy. Placental insufficiency is implicated in spontaneous preterm birth (SPTB). We proposed that deficits in the capacity of the placenta to maintain bioenergetic and metabolic stability during pregnancy may ultimately result in SPTB. To explore our hypothesis, we performed a RNA-seq study in male and female placentas from women with SPTB (<36 weeks gestation) compared to normal pregnancies (≥38 weeks gestation) to assess the alterations in the gene expression profiles. We focused exclusively on Black women (cases and controls), who are at the highest risk of SPTB. Six hundred and seventy differentially expressed genes were identified in male SPTB placentas. Among them, 313 and 357 transcripts were increased and decreased, respectively. In contrast, only 61 differentially expressed genes were identified in female SPTB placenta. The ingenuity pathway analysis showed alterations in the genes and canonical pathways critical for regulating inflammation, oxidative stress, detoxification, mitochondrial function, energy metabolism, and the extracellular matrix. Many upstream regulators and master regulators important for nutrient-sensing and metabolism were also altered in SPTB placentas, including the PI3K complex, TGFB1/SMADs, SMARCA4, TP63, CDKN2A, BRCA1, and NFAT. The transcriptome was integrated with published human placental metabolome to assess the interactions of altered genes and metabolites. Collectively, significant and biologically relevant alterations in the transcriptome were identified in SPTB placentas with fetal sex disparities. Altered energy metabolism, mitochondrial function, inflammation, and detoxification may underly the mechanisms of placental dysfunction in SPTB.

Lifelong pulmonary sequelae of bronchopulmonary dysplasia.

PURPOSE OF REVIEW: To summarize the current literature evaluating long-term pulmonary morbidity among surviving very preterm infants with bronchopulmonary dysplasia (BPD). RECENT FINDINGS: BPD predisposes very preterm infants to adverse respiratory signs and symptoms, greater respiratory medication use, and more frequent need for rehospitalization throughout early childhood. Reassuringly, studies also indicate that older children and adolescents with BPD experience, on average, similar functional status and quality of life when compared to former very preterm infants without BPD. However, measured deficits in pulmonary function may persist in those with BPD and indicate an increased susceptibility to early-onset chronic obstructive pulmonary disease during adulthood. Moreover, subtle differences in exercise tolerance and activity may put survivors with BPD at further risk of future morbidity in later life. SUMMARY: Despite advances in neonatal respiratory care, a diagnosis of BPD continues to be associated with significant pulmonary morbidity over the first two decades of life. Long-term longitudinal studies are needed to determine if recent survivors of BPD will also be at increased risk of debilitating pulmonary disease in adulthood.

Clinical and Molecular Analysis in 2 Families With Novel Compound Heterozygous SBP2 (SECISBP2) Mutations.

CONTEXT: Selenocysteine insertion sequence binding protein 2 (SECISBP2, SBP2) is an essential factor for selenoprotein synthesis. Individuals with SBP2 defects have characteristic thyroid function test (TFT) abnormalities resulting from deficiencies in the selenoenzymes deiodinases. Eight families with recessive SBP2 gene mutations have been reported to date. We report 2 families with inherited defect in thyroid hormone metabolism caused by 4 novel compound heterozygous mutations in the SBP2 gene. CASE DESCRIPTIONS: Probands 1 and 2 presented with growth and developmental delay. Both had characteristic TFT with high T4, low T3, high reverse T3, and normal or slightly elevated TSH. The coding region of the SBP2 gene was sequenced and analysis of in vitro translated wild-type and mutant SBP2 proteins was performed. Sequencing of the SBP2 gene identified novel compound heterozygous mutations resulting in mutant SBP2 proteins E679D and R197* in proband 1, and K682Tfs*2 and Q782* in proband 2. In vitro translation of the missense E679D demonstrated all four isoforms, whereas R197* had only 2 shorter isoforms translated from downstream ATGs, and Q782*, K682Tfs*2 expressed isoforms with truncated C-terminus. Reduction in serum glutathione peroxidase enzymatic activity was also demonstrated in both probands. CONCLUSIONS: We report 2 additional families with mutations in the SBP2 gene, a rare inherited condition manifesting global selenoprotein deficiencies. Report of additional families with SBP2 deficiency and their evaluation over time is needed to determine the full spectrum of clinical manifestations in SBP2 deficiency and increase our understanding of the role played by SBP2 and selenoproteins in health and disease.

Pulseless Electrical Activity Complicating Neonatal Resuscitation.

BACKGROUND: The most recent guidelines by the Neonatal Resuscitation Program recommend use of electrocardiography monitoring during advanced resuscitation. OBJECTIVE: We describe a case in whom detection of pulseless electrical activity (PEA) on electronic heart rate monitoring complicated delivery room management of an extremely low birth weight infant and offer suggestions for the identification of PEA for neonatal providers. CONCLUSION: Further prospective studies are needed to determine the true incidence of PEA in the delivery room setting as well as its prognosis in newborns.

Neonatal Thrombocytopenia: Etiology and Diagnosis.

Neonatal thrombocytopenia has a broad range of possible etiologies. In this review, an asymptomatic newborn infant was found to have severe thrombocytopenia on laboratory testing for limited sepsis evaluation. The differential diagnosis for thrombocytopenia in the newborn period is discussed, along with recommendations for initial evaluation and follow up of isolated thrombocytopenia in an otherwise well-appearing infant. The clinician should be aware of findings associated with unusual causes of thrombocytopenia that should prompt additional evaluation in the nursery or in the general pediatrician's office. In this illustrative case, a high index of suspicion allowed early diagnosis of Wiskott-Aldrich syndrome and prompt curative therapy by stem cell transplant.

The Atoh1-lineage gives rise to hair cells and supporting cells within the mammalian cochlea.

The organ of Corti, located within the mammalian cochlea, contains a precise mosaic of hair cells (HC) and supporting cells (SC), the patterning of which is critical for auditory function. Progenitors of HCs and SCs are found in the same post-mitotic region of the cochlear duct during early stages of cochlear development, and both HCs and SCs are absent in mice lacking the transcription factor Atoh1. Based on existing data, Atoh1 is thought to be the earliest determinant of HC fate, and to have a cell-autonomous role in HC differentiation, but the lineage of Atoh1-positive cells within the cochlear duct remains unclear. To address this issue, we used an inducible Atoh1(Cre⁎PR) allele to permanently mark Atoh1-expressing cells at different developmental time points. We found that up to 30% of cells from the Atoh1-lineage develop as SCs, and that the number of Atoh1-positive SCs decreases both spatially and temporally in a pattern consistent with ongoing commitment. Modulation of Notch signaling, necessary for formation of the HC-SC mosaic, changes the percentage of cells from the Atoh1-lineage that develop as either HCs or SCs. The HC-SC ratio is also affected by morphogenesis of the cochlea, as inhibiting the outgrowth of the cochlear duct increases the number of Atoh1-lineage cells that develop as SCs. Our results demonstrate that the Atoh1-lineage is established early in cochlear development, but also show that expression of Atoh1 does not absolutely result in commitment to a HC fate.

Cytokine gene polymorphisms as risk and severity factors for juvenile dermatomyositis.

OBJECTIVE: To study tumor necrosis factor alpha (TNFalpha) and interleukin-1 (IL-1) cytokine polymorphisms as possible risk and protective factors, define their relative importance, and examine these as severity factors in patients with juvenile dermatomyositis (DM). METHODS: TNFalpha and IL-1 cytokine polymorphism and HLA typing were performed in 221 Caucasian patients with juvenile DM, and the results were compared with those in 203 ethnically matched healthy volunteers. RESULTS: The genotypes TNFalpha -308AG (odds ratio [OR] 3.6), TNFalpha -238GG (OR 3.5), and IL-1alpha +4845TT (OR 2.2) were risk factors, and TNFalpha -308GG (OR 0.26) as well as TNFalpha -238AG (OR 0.22) were protective, for the development of juvenile DM. Carriage of a single copy of the TNFalpha -308A (OR 3.8) or IL-1beta +3953T (OR 1.7) allele was a risk factor, and the TNFalpha -238A (OR 0.29) and IL-1alpha +4845G (OR 0.46) alleles were protective, for juvenile DM. Random Forests classification analysis showed HLA-DRB1*03 and TNFalpha -308A to have the highest relative importance as risk factors for juvenile DM compared with the other alleles (Gini scores 100% and 90.7%, respectively). TNFalpha -308AA (OR 7.3) was a risk factor, and carriage of the TNFalpha -308G (OR 0.14) and IL-1alpha -889T (OR 0.41) alleles was protective, for the development of calcinosis. TNFalpha -308AA (OR 7.0) was a possible risk factor, and carriage of the TNFalpha -308G allele (OR 0.14) was protective, for the development of ulcerations. None of the studied TNFalpha, IL-1alpha, and IL-1beta polymorphisms were associated with the disease course, disease severity at the time of diagnosis, or the patient's sex. CONCLUSION: TNFalpha and IL-1 genetic polymorphisms contribute to the development of juvenile DM and may also be indicators of disease severity.