Your search keyword '"neurodevelopment"' showing total 3,710 results

1. Fetal weight growth trajectories and childhood development: A population-based cohort study.

Author

Chen, Xinmei, Liu, Hongxiu, Zhou, Aifen, Jin, Feng, Jing, Chufeng, Li, Yuanyuan, Xia, Wei, Kahn, Linda G., Xie, Ya, Xiang, Xingliang, Cao, Shuting, Zhang, Wenxin, Mahai, Gaga, Cao, Zhongqiang, Xiao, Han, Xiong, Chao, Li, Wei, Li, Hanzeng, and Xu, Shunqing

Abstract

[Display omitted] This study aimed to investigate whether fetal growth trajectories (FGTs) could predict early childhood development, indicate intrauterine metabolic changes, and explore potential optimal and suboptimal FGTs. FGTs were developed by using an unsupervised machine-learning approach. Children's neurodevelopment, anthropometry, and respiratory outcomes in the first 6 years of life were assessed at different ages. In a subgroup of participants, we conducted a metabolomics analysis of cord blood to reveal the metabolic features of FGTs. We identified 6 FGTs: early decelerating, early decelerating with late catch-up growth, early accelerating, early accelerating with late medium growth, late decelerating, and late accelerating. The early accelerating with late medium growth pattern might be the optimal FGT due to its associations with better psychomotor development, mental development, intelligence quotient, and lung function and a lower risk of behaviour and respiratory problems. Compared with the optimal FGT, early decelerating and late decelerating FGTs were associated with poor neurodevelopment and lung function, while early accelerating FGT was associated with more severe autistic symptoms, poor lung function, and increased risks of overweight/obesity. Metabolic alterations were enriched in amino acid metabolism for early decelerating and late decelerating FGTs, whereas altered metabolites were enriched in lipid metabolism for early accelerating FGT. These findings suggest that FGTs are predictors of early life development and may indicate intrauterine adaptive metabolism. The discovery of optimal and suboptimal FGTs provides potential clues for the early identification and intervention of fetal origin dysplasia or disease, but further research on related mechanisms is still needed. [ABSTRACT FROM AUTHOR]

Published

2024

2. UBE3A: Bridging the gap between neurodevelopment, neural function, and neurodegenerative woes.

Author

Nash, Kevin R, Jinwal, Umesh K, and Bhat, Krishna Moorthi

Subjects

*UBIQUITIN ligases, *ANGELMAN syndrome, *HUNTINGTON disease, *PROTEOLYSIS, *AUTISM spectrum disorders

Abstract

Post-translational modifications (PTMs) of proteins play a significant role in normal protein function but can also be instrumental in disease pathogenesis. One critical yet under-studied PTM in disease is ubiquitination. Ubiquitin chain addition and substrate specificity are determined by a large spectrum of ubiquitin-ligating and -modifying enzymes, E3 ligases, whose expression levels and activities are tightly regulated in a cell-specific manner. While most ubiquitin chains can target proteins for proteasomal degradation, ubiquitination can contribute to other functions within the cell, including protein localization, protein activity, endocytosis, transcription, and autophagy. One E3 ligase, UBE3A, has garnered much attention because of its involvement in learning and memory, as well as its association with neurodevelopmental autism spectrum disorders (ASDs). However, more recent findings have suggested a potential involvement of UBE3A in neurodegenerative proteinopathies, where reduced UBE3A levels can lead to an enhanced rate of aggregate formation and cell death. Here, we review the literature on UBE3A in neurodevelopment, function, and neurodegenerative diseases and demonstrate that UBE3A could play a critical role in disease progression and cognitive function. [ABSTRACT FROM AUTHOR]

Published

2024

3. Prenatal drivers of microglia vulnerability in the adult.

Author

Tagliatti, Erica, Bizzotto, Matteo, Morini, Raffaella, Filipello, Fabia, Rasile, Marco, and Matteoli, Michela

Abstract

Summary Environmental insults during early development heavily affect brain trajectories. Among these, maternal infections, high‐fat diet regimens, and sleep disturbances pose a significant risk for neurodevelopmental derangements in the offspring. Notably, scattered evidence is starting to emerge that also paternal lifestyle habits may impact the offspring development. Given their key role in controlling neurogenesis, synaptogenesis and shaping neuronal circuits, microglia represent the most likely suspects of mediating the detrimental effects of prenatal insults. For some of these environmental triggers, like maternal infections, ample literature evidence demonstrates the central role of microglia, also delineating the specific transcriptomic and proteomic profiles induced by these insults. In other contexts, the analysis of microglia is still in its infancy. Fostering these studies is needed to define microglia as potential therapeutic target in the frame of disorders consequent to maternal immune activation. [ABSTRACT FROM AUTHOR]

Published

2024

4. Relationships between Gut Microbiota and Autism Spectrum Disorders: Development and Treatment.

Author

Poupard, Lisa, Page, Guylène, Thoreau, Vincent, and Kaouah, Zahyra

Abstract

Many studies have demonstrated the impact of intestinal microbiota on normal brain development. Moreover, the gut microbiota (GM) is impacted by multiple endogenous and environmental factors that may promote gut dysbiosis (GD). An increasing number of studies are investigating the possible role of the GD in the development of neurological and behavioral disorders. For autism spectrum disorders (ASD), specific intestinal bacterial signatures have been identified, knowing that gastrointestinal symptoms are frequently found in ASD. In this review, the peri and post-natal factors modulating the GM are described and the specific gut bacterial signature of ASD children is detailed. Through bidirectional communication between the GM and the brain, several mechanisms are involved in the development of ASD, such as cytokine-mediated neuroinflammation and decreased production of neuroprotective factors such as short-chain fatty acids by the GM. Imbalance of certain neurotransmitters such as serotonin or gamma-aminobutyric acid could also play a role in these gut-brain interactions. Some studies show that this GD in ASD is partly reversible by treatment with pre- and probiotics, or fecal microbiota transplantation with promising results. However, certain limitations have been raised, in particular concerning the short duration of treatment, the small sample sizes and the diversity of protocols. The development of standardized therapeutics acting on GD in large cohort could rescue the gastrointestinal symptoms and behavioral impairments, as well as patient management. [ABSTRACT FROM AUTHOR]

Published

2024

5. Evidence-Based Infant Assessment for Cerebral Palsy: Diagnosis Timelines and Intervention Access in a Newborn Follow-up Setting.

Author

Sutter, Ellen N., Legare, Janet M., Villegas, Melissa A., Collins, Kellie M., Eickhoff, Jens, and Gillick, Bernadette T.

Subjects

*CHILDREN with cerebral palsy, *CEREBRAL palsy, *MEDICAL rehabilitation, *EARLY diagnosis, *INFANTS

Abstract

Evidence-based assessment pathways inform early detection of cerebral palsy and access to intervention. This study investigated the relationships between early evidence-based assessments, diagnosis timeline, and rehabilitation intervention access in a population of children with cerebral palsy who were seen between 2010 and 2022 at the University of Wisconsin Waisman Center Newborn Follow Up Clinic. Cerebral palsy–specific assessments were increasingly integrated after the publication of early detection guidelines by Novak et al. in 2017. Age at cerebral palsy first mention (high risk for cerebral palsy) decreased over time, although age at diagnosis remained similar. Infants who received multiple evidence-based assessments were diagnosed at a younger age. Ninety-nine percent of children were referred to rehabilitation therapies before diagnosis. Infant age at referral to outpatient therapies decreased over time. This study provides novel clinical data on diagnosis timelines and identifies remaining gaps related to implementation feasibility toward improved early diagnosis and intervention access. [ABSTRACT FROM AUTHOR]

Published

2024

6. Neural oscillations suggest periodicity encoding during auditory beat processing in the premature brain.

Author

Edalati, Mohammadreza, Wallois, Fabrice, Ghostine, Ghida, Kongolo, Guy, Trainor, Laurel J., and Moghimi, Sahar

Subjects

*PREMATURE infants, *AUDITORY perception, *EVOKED potentials (Electrophysiology), *GESTATIONAL age, *NEURAL codes

Abstract

When exposed to rhythmic patterns with temporal regularity, adults exhibit an inherent ability to extract and anticipate an underlying sequence of regularly spaced beats, which is internally constructed, as beats are experienced even when no events occur at beat positions (e.g., in the case of rests). Perception of rhythm and synchronization to periodicity is indispensable for development of cognitive functions, social interaction, and adaptive behavior. We evaluated neural oscillatory activity in premature newborns (n = 19, mean age, 32 ± 2.59 weeks gestational age) during exposure to an auditory rhythmic sequence, aiming to identify early traces of periodicity encoding and rhythm processing through entrainment of neural oscillations at this stage of neurodevelopment. The rhythmic sequence elicited a systematic modulation of alpha power, synchronized to expected beat locations coinciding with both tones and rests, and independent of whether the beat was preceded by tone or rest. In addition, the periodic alpha‐band fluctuations reached maximal power slightly before the corresponding beat onset times. Together, our results show neural encoding of periodicity in the premature brain involving neural oscillations in the alpha range that are much faster than the beat tempo, through alignment of alpha power to the beat tempo, consistent with observations in adults on predictive processing of temporal regularities in auditory rhythms. Research Highlights: In response to the presented rhythmic pattern, systematic modulations of alpha power showed that the premature brain extracted the temporal regularity of the underlying beat.In contrast to evoked potentials, which are greatly reduced when there is no sounds event, the modulation of alpha power occurred for beats coinciding with both tones and rests in a predictive way.The findings provide the first evidence for the neural coding of periodicity in auditory rhythm perception before the age of term. [ABSTRACT FROM AUTHOR]

Published

2024

7. Association between mode of delivery and early neurodevelopment: A prospective birth cohort study.

Author

Huang, Yun, Jia, Zhenxian, Chen, Xinmei, Wang, Yin, Zhou, Aifen, Zeng, Huaicai, Xia, Wei, Li, Yuanyuan, Xu, Shunqing, and Liu, Hongxiu

Subjects

*DELIVERY (Obstetrics), *BEHAVIORAL assessment, *CESAREAN section, *AUTISM in children, *CLINICAL indications

Abstract

Previous research has assessed the effects of caesarean delivery (CD) on child neurodevelopment; however, whether the effects stem from the surgical procedure itself or its related medical conditions has not been conclusively determined. This study aimed to evaluate the associations among delivery mode, CD-related medical conditions and early childhood neurodevelopment. A total of 3829 maternal-infant pairs from a longitudinal birth cohort in Wuhan City, China, were included in the primary analysis. The neurodevelopment of the children was assessed by the Bayley Scales of Infant Development (BSID), the Conners Comprehensive Behaviour Rating Scale and the Chinese version of the Autism Behavior Checklist. Data on delivery mode and medical conditions were collected via medical records from the study hospital. Among the 3829 children for whom the BSID test was completed at two years of age, 50%, 27%, and 23% were delivered vaginally, by necessary CD, and by elective CD, respectively. Compared with vaginally delivered children, Necessary CD was associated with a 16.67% decrease in Mental Development Index (MDI) scores and a 13.37% decrease in Psychomotor Development Index (PDI) scores, while elective CD showed a 20.63% and 20.99% decrease after FDR correction, respectively. Similarly, among the 2448 children for whom the CBRS was completed, necessary CD was found to be associated with conduct disorders (adjusted β: 0.06; 95% CI: 0.02, 0.09), hyperactivity (adjusted β: 0.06; 95% CI: 0.02, 0.11), and hyperactivity index (adjusted β: 0.07; 95% CI: 0.03, 0.11), while elective CD was significantly associated with hyperactivity problem scores (adjusted β: 0.08, 95% CI: 0.03, 0.13). However, no significant association was found between CD and symptoms of autism in children, as assessed by the Autism Behavior Checklist (ABC). Conclusion: This study suggested that the adverse impact of CD on child neurodevelopment stems from the procedure itself rather than CD-related medical conditions. It is important to minimize the use of CD when there is no medical necessity. What is Known: • Caesarean delivery (CD) may influence child neurodevelopment and other long-term outcomes. • In China, approximately one-quarter of CD are performed due to maternal request without medical indications. What is New: • The negative impact of CD on the neurodevelopmental outcomes of children may be primarily attributed to the procedure itself, as opposed to related medical conditions. • In the absence of medical indications, unnecessary CD may have adverse impacts on children's neurodevelopment. [ABSTRACT FROM AUTHOR]

Published

2024

8. Mapping prenatal predictors and neurobehavioral outcomes of an epigenetic marker of neonatal inflammation – A longitudinal population-based study.

Author

Suleri, Anna, Creasey, Nicole, Walton, Esther, Muetzel, Ryan, Felix, Janine F., Duijts, Liesbeth, Bergink, Veerle, and Cecil, Charlotte A.M.

Subjects

*CORD blood, *CHILD patients, *NEONATAL infections, *PREMATURE infants, *DNA methylation, *PRENATAL exposure delayed effects

Abstract

• A DNA methylation profile score at birth may be used as a marker of sustained inflammation (MPS-CRP) in neonates. • Little is known about predictors for − and offspring outcomes of − MPS-CRP in the general population. • MPS-CRP at birth was linked to prenatal lifestyle factors but not to maternal medical conditions, or child genetic factors. • MPS-CRP at birth was associated with child white matter alterations over time, but not with psychiatric symptoms. DNA methylation levels at specific sites can be used to proxy C-reactive protein (CRP) levels, providing a potentially more stable and accurate indicator of sustained inflammation and associated health risk. However, its use has been primarily limited to adults or preterm infants, and little is known about determinants for − or offspring outcomes of − elevated levels of this epigenetic proxy in cord blood. The aim of this study was to comprehensively map prenatal predictors and long-term neurobehavioral outcomes of neonatal inflammation, as assessed with an epigenetic proxy of inflammation in cord blood, in the general pediatric population. Our study was embedded in the prospective population-based Generation R Study (n = 2,394). We created a methylation profile score of CRP (MPS-CRP) in cord blood as a marker of neonatal inflammation and validated it against serum CRP levels in mothers during pregnancy, as well as offspring at birth and in childhood. We then examined (i) which factors (previously associated with sustained inflammation) explain variability in MPS-CRP at birth, including a wide range of prenatal lifestyle and clinical conditions, pro-inflammatory exposures, as well as child genetic liability to elevated CRP levels; and (ii) whether MPS-CRP at birth associates with child neurobehavioral outcomes, including global structural MRI and DTI measures (child mean age 10 and 14 years) as well as psychiatric symptoms over time (Child Behavioral Checklist, at mean age 1.5, 3, 6, 10 and 14 years). MPS-CRP at birth was validated with serum CRP in cord blood (cut-off > 1 mg/L) (AUC = 0.72). Prenatal lifestyle pro-inflammatory factors explained a small part (i.e., < 5%) of the variance in the MPS-CRP at birth. No other prenatal predictor or the polygenic score of CRP in the child explained significant variance in the MPS-CRP at birth. The MPS-CRP at birth prospectively associated with a reduction in global fractional anisotropy over time on mainly a nominal threshold (β = -0.014, SE = 0.007, p = 0.032), as well as showing nominal associations with structural differences (amygdala [(β = 0.016, SE = 0.006, p = 0.010], cerebellum [(β = -0.007, SE = 0.003, p = 0.036]). However, no associations with child psychiatric symptoms were observed. Prenatal exposure to lifestyle-related pro-inflammatory factors was the only prenatal predictor that accounted for some of the individual variability in MPS-CRP levels at birth. Further, while the MPS-CRP prospectively associated with white matter alterations over time, no associations were observed at the behavioral level. Thus, the relevance and potential utility of using epigenetic data as a marker of neonatal inflammation in the general population remain unclear. In the future, the use of epigenetic proxies for a wider range of immune markers may lend further insights into the relationship between neonatal inflammation and adverse neurodevelopment within the general pediatric population. [ABSTRACT FROM AUTHOR]

Published

2024

9. Transcriptional and cellular response of hiPSC-derived microglia-neural progenitor co-cultures exposed to IL-6.

Author

Couch, Amalie C.M., Brown, Amelia M., Raimundo, Catarina, Solomon, Shiden, Taylor, Morgan, Sichlinger, Laura, Matuleviciute, Rugile, Srivastava, Deepak P., and Vernon, Anthony C.

Subjects

*PROGENITOR cells, *HUMAN stem cells, *FETAL development, *PSYCHIATRIC diagnosis, *PRENATAL exposure, *PLURIPOTENT stem cells

Abstract

• Human iPSC neural progenitor cells (NPC) only respond to IL-6 by trans -signalling. • Microglia-secreted sIL6Ra levels insufficient to induce NPC IL-6 trans -signalling. • NPC display marginal transcriptional responses to IL-6 in co-culture with microglia. • There are clear and replicable effects of IL-6 on the microglial transcriptome. • Future work should explore the role of IL-6 cis- and trans -signalling in microglia. Elevated interleukin (IL-)6 levels during prenatal development have been linked to increased risk for neurodevelopmental disorders (NDD) in the offspring, but the mechanism remains unclear. Human-induced pluripotent stem cell (hiPSC) models offer a valuable tool to study the effects of IL-6 on features relevant for human neurodevelopment in vitro. We previously reported that hiPSC-derived microglia-like cells (MGLs) respond to IL-6, but neural progenitor cells (NPCs) in monoculture do not. Therefore, we investigated whether co-culturing hiPSC-derived MGLs with NPCs would trigger a cellular response to IL-6 stimulation via secreted factors from the MGLs. Using N=4 donor lines without psychiatric diagnosis, we first confirmed that NPCs can respond to IL-6 through trans -signalling when recombinant IL-6Ra is present, and that this response is dose-dependent. MGLs secreted soluble IL-6R, but at lower levels than found in vivo and below that needed to activate trans -signalling in NPCs. Whilst transcriptomic and secretome analysis confirmed that MGLs undergo substantial transcriptomic changes after IL-6 exposure and subsequently secrete a cytokine milieu, NPCs in co-culture with MGLs exhibited a minimal transcriptional response. Furthermore, there were no significant cell fate-acquisition changes when differentiated into post-mitotic cultures, nor alterations in synaptic densities in mature neurons. These findings highlight the need to investigate if trans -IL-6 signalling to NPCs is a relevant disease mechanism linking prenatal IL-6 exposure to increased risk for psychiatric disorders. Moreover, our findings underscore the importance of establishing more complex in vitro human models with diverse cell types, which may show cell-specific responses to microglia-released cytokines to fully understand how IL-6 exposure may influence human neurodevelopment. [ABSTRACT FROM AUTHOR]

Published

2024

10. Prenatal exposure to air pollution during the early and middle stages of pregnancy is associated with adverse neurodevelopmental outcomes at ages 1 to 3 years.

Author

Perera, Frederica, Miao, Yuqi, Ross, Zev, Rauh, Virginia, Margolis, Amy, Hoepner, Lori, Riley, Kylie W., Herbstman, Julie, and Wang, Shuang

Subjects

*PREGNANT women, *SECOND trimester of pregnancy, *PRENATAL exposure, *POOR communities, *COGNITIVE aging, *AIR pollution

Abstract

Background: A large body of data shows that fetal brain development is vulnerable to disruption by air pollution experienced by the mother during pregnancy, adversely affecting cognitive and psychomotor capabilities during childhood (De Asis-Cruz et al., Biol Psychiatry 7:480–90, 2022; Morgan ZEM et al., Environ Health 22:11, 2023). This study has sought to identify gestational windows of susceptibility to prenatal exposure to air pollution. Methods: 470 African American and Latina mother/child pairs participated in a prospective cohort study based in the low-income communities of Northern Manhattan and the South Bronx, New York City. Gestational exposure to respirable particulate matter (PM2.5) and nitrogen dioxide (NO2) was assessed through validated models in relation to cognitive and motor development assessed at ages 1, 2, and 3 years using the Bayley-II Scales. Multiple linear regression models and distributed lag models (DLM) were used to identify critical windows of exposure by trimester and week of pregnancy. Results: By linear regression, average exposures to NO2 during the first and second trimesters and the entire pregnancy were significantly and negatively associated with the mental developmental index (MDI) at age 1. Average exposures to PM2.5 during the second trimester and the entire pregnancy were also significantly, inversely associated with age 1 MDI. No significant associations were found between these exposures and MDI at age 2. NO2 exposure during the first trimester was significantly negatively associated with MDI at age 3. Using DLM, exposures to NO2 at lags 29–30 weeks (within the first trimester) and PM2.5 at lags 17–18 weeks (second trimester) were significantly and inversely associated with MDI at age 1. Significant, inverse associations were found between exposures to NO2 at lag 29 weeks and PM2.5 at lags 27–29 weeks and children's MDI at age 3. No significant associations were found between psychomotor index (PDI) and prenatal exposures to NO2 or PM2.5 at ages 1, 2 or 3. Conclusions: Our finding that prenatal exposure to air pollution in the first and second trimesters was associated with lower scores for cognitive development at ages 1 and 3 is of concern because of the potential consequences of these outcomes for long-term functioning. They underscore the need for stronger policies to protect pregnant individuals and offspring, particularly during vulnerable, early life-stage of development. [ABSTRACT FROM AUTHOR]

Published

2024

11. Cognitive and academic outcomes of large‐for‐gestational‐age babies born at early term: A systematic review and meta‐analysis.

Author

Zhao, Xuan, Poskett, Alice, Stracke, Marie, Quenby, Siobhan, and Wolke, Dieter

Subjects

*SHOULDER dystocia, *RANDOMIZED controlled trials, *GESTATIONAL age, *CONFIDENCE intervals, *DATABASES, *INDUCED labor (Obstetrics)

Abstract

Introduction Material and Methods Results Conclusions Early induction of labor (37+0–38+6 gestational weeks) in large‐for‐gestational‐age infants may reduce perinatal risks such as shoulder dystocia, but it may also increase the long‐term risks of reduced cognitive abilities. This systematic review aimed to evaluate the cognitive and academic outcomes of large‐for‐gestational‐age children born early term versus full term (combined or independent exposures).The protocol was registered in the PROSPERO database under the registration no. CRD42024528626. Five databases were searched from their inception until March 27, 2024, without language restrictions. Studies reporting childhood cognitive or academic outcomes after early term or large‐for‐gestational‐age births were included. Two reviewers independently screened the selected studies. One reviewer extracted the data, and the other double‐checked the data. The risk of bias was assessed using the Newcastle‐Ottawa Quality Assessment Scale. In addition to narrative synthesis, meta‐analyses were conducted where possible.Of the 2505 identified articles, no study investigated early‐term delivery in large‐for‐gestational‐age babies. Seventy‐six studies involving 11 460 016 children investigated the effects of either early‐term delivery or large‐for‐gestational‐age. Children born at 37 weeks of gestation (standard mean difference, −0.13; 95% confidence interval, −0.21 to −0.05), but not at 38 weeks (standard mean difference, −0.04; 95% confidence interval, −0.08 to 0.002), had lower cognitive scores than those born at 40 weeks. Large‐for‐gestational‐age children had slightly higher cognitive scores than appropriate‐for‐gestational‐age children (standard mean difference, 0.06; 95% confidence interval, 0.01–0.11). Similar results were obtained using the outcomes of either cognitive impairment or academic performance.No study has investigated the combined effect of early‐term delivery on cognitive scores in large‐for‐gestational‐age babies. Early‐term delivery may have a very small detrimental effect on cognitive scores, whereas being large for gestational age may have a very small benefit. However, evidence from randomized controlled trials or observational studies is required. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genetic Variability in Oxidative Stress, Inflammatory, and Neurodevelopmental Pathways: Impact on the Susceptibility and Course of Spinal Muscular Atrophy.

Author

Barbo, Maruša, Koritnik, Blaž, Leonardis, Lea, Blagus, Tanja, Dolžan, Vita, and Ravnik-Glavač, Metka

Subjects

*SPINAL muscular atrophy, *SINGLE nucleotide polymorphisms, *GENETIC variation, *DISEASE progression, *OXIDATIVE stress

Abstract

The spinal muscular atrophy (SMA) phenotype strongly correlates with the SMN2 gene copy number. However, the severity and progression of the disease vary widely even among affected individuals with identical copy numbers. This study aimed to investigate the impact of genetic variability in oxidative stress, inflammatory, and neurodevelopmental pathways on SMA susceptibility and clinical progression. Genotyping for 31 genetic variants across 20 genes was conducted in 54 SMA patients and 163 healthy controls. Our results revealed associations between specific polymorphisms and SMA susceptibility, disease type, age at symptom onset, and motor and respiratory function. Notably, the TNF rs1800629 and BDNF rs6265 polymorphisms demonstrated a protective effect against SMA susceptibility, whereas the IL6 rs1800795 was associated with an increased risk. The polymorphisms CARD8 rs2043211 and BDNF rs6265 were associated with SMA type, while SOD2 rs4880, CAT rs1001179, and MIR146A rs2910164 were associated with age at onset of symptoms after adjustment for clinical parameters. In addition, GPX1 rs1050450 and HMOX1 rs2071747 were associated with motor function scores and lung function scores, while MIR146A rs2910164, NOTCH rs367398 SNPs, and GSTM1 deletion were associated with motor and upper limb function scores, and BDNF rs6265 was associated with lung function scores after adjustment. These findings emphasize the potential of genetic variability in oxidative stress, inflammatory processes, and neurodevelopmental pathways to elucidate the complex course of SMA. Further exploration of these pathways offers a promising avenue for developing personalized therapeutic strategies for SMA patients. [ABSTRACT FROM AUTHOR]

Published

2024

13. Role of early postnatal aEEG and brain MRI in predicting neurodevelopmental outcome in preterm infants at the age of 1 year.

Author

Metwalli, Eman Mahmoud, Eyada, Iman Khaled, Abuelhamd, Walaa Alsharany, Seif, Hadeel Mohamed, Hammad, Heba Samy Ibrahim, and Shaheen, Yara Salah Aly

Subjects

*NEONATAL intensive care units, *PREMATURE labor, *PROGNOSIS, *GESTATIONAL age, *PREMATURE infants, *NEURAL development, *TODDLERS development

Abstract

Background: Preterm birth is a principal reason for perinatal morbidity and mortality increasing the incidence of severe neurodevelopmental deficits. There is growing proof that early postnatal amplitude-integrated electroencephalography (aEEG) has a prognostic value for neurodevelopmental consequence in preterm born neonates. Furthermore, MRI has been widely utilized to enhance comprehension of the brain substrate responsible for neurodevelopmental abnormalities. Thus, this study aims at evaluating the role of early postnatal aEEG and brain MRI in forecasting neurodevelopmental consequence in preterm infants at the age of 1 year. Methods: A cohort study performed in the neonatal intensive care unit of a tertiary hospital during the duration from October 2021 to June 2023 including 60 preterm neonates < 32 weeks of gestation. All cases were monitored by aEEG within the 1st 72 h of life for at least 4 h, and then brain MRI and aEEG were done at term equivalent age (TEA) of 40 weeks. Regarding the neurodevelopmental outcome, our cases were assessed by Bayley scale III screening test at the age of 1 year. Results: Of the study participants, 41.7% were males, and 58.3% were females with a mean gestational age of 30.40 ± 0.94 weeks and mean weight of 1.36 ± 0.17 kg. aEEG showed that 83.3% of the cases had continuous normal background activity at TEA, and MRI showed that 75% of the cases were normal. Comparing between non-affected and affected groups as categorized by Bayley scale regarding aEEG and MRI findings, there was greatly statistically significant difference between the two groups (P < 0.001). Brain MRI showed higher sensitivity and accuracy than aEEG. Conclusion: Brain MRI at TEA is more sensitive and accurate than aEEG to predict the neurodevelopmental outcome. aEEG at TEA is more predictor for neurodevelopmental outcome than at birth. The combination of both aEEG and brain MRI at TEA gives more prediction about the degree of affection in neurodevelopmental outcome in preterm infants. [ABSTRACT FROM AUTHOR]

Published

2024

14. Zinc signaling controls astrocyte‐dependent synapse modulation via the PAF receptor pathway.

Author

Stanton, Janelle E., Hans, Sakshi, Zabetakis, Ioannis, and Grabrucker, Andreas M.

Subjects

*NEUROGLIA, *CENTRAL nervous system, *SYNAPTOGENESIS, *CELL communication, *BLOOD platelet activation

Abstract

Astrocytes are important regulators of neuronal development and activity. Their activation plays a key role in the response to many central nervous system (CNS) pathologies. However, reactive astrocytes are a double‐edged sword as their chronic or excessive activation may negatively impact CNS physiology, for example, via abnormal modulation of synaptogenesis and synapse function. Accordingly, astrocyte activation has been linked to neurodegenerative and neurodevelopmental disorders. Therefore, the attenuation of astrocyte activation may be an important approach for preventing and treating these disorders. Since zinc deficiency has been consistently linked to increased pro‐inflammatory signaling, we aimed to identify cellular zinc‐dependent signaling pathways that may lead to astrocyte activation using techniques such as immunocytochemistry and protein biochemistry to detect astrocyte GFAP expression, fluorescent imaging to detect oxidative stress levels in activated astrocytes, cytokine profiling, and analysis of primary neurons subjected to astrocyte secretomes. Our results reveal a so far not well‐described pathway in astrocytes, the platelet activation factor receptor (PAFR) pathway, as a critical zinc‐dependent signaling pathway that is sufficient to control astrocyte reactivity. Low zinc levels activate PAFR signaling‐driven crosstalk between astrocytes and neurons, which alters excitatory synapse formation during development in a PAFR‐dependent manner. We conclude that zinc is a crucial signaling ion involved in astrocyte activation and an important dietary factor that controls astrocytic pro‐inflammatory processes. Thus, targeting zinc homeostasis may be an important approach in several neuroinflammatory conditions. [ABSTRACT FROM AUTHOR]

Published

2024

15. Learning from those who thrive: protective factors and neuroimaging markers in adolescents with complex congenital heart disease and with a favorable neurodevelopmental profile.

Author

Ehrler, Melanie, O’Gorman, Ruth, Wehrle, Flavia Maria, Speckert, Anna, Jakab, Andras, Kretschmar, Oliver, and Latal, Beatrice

Subjects

*EXECUTIVE function, *CONGENITAL heart disease, *FAMILY-centered care, *NEUROPSYCHOLOGICAL tests, *NEURAL development

Abstract

Patients with complex congenital heart disease (cCHD) are at risk for neurodevelopmental impairments, yet many patients develop normally. This study investigated associations between a favorable neurodevelopmental profile and protective factors, quality of life (QoL), resilience, and brain development. Adolescents with cCHD (n = 100) were prospectively enrolled. Neurodevelopmental profiles comprised IQ, executive functions, and behavior. Standardized neuropsychological tests and questionnaires were used to assess neurodevelopmental outcomes, family factors, QoL, and resilience. Clinical data were obtained from medical charts. Cerebral MRI was acquired. Specific neurodevelopmental profiles were identified by latent profile analysis and were associated with clinical and family factors, QoL and resilience, and MRI markers. We identified two distinct groups of neurodevelopmental profiles (favorable profile: n = 57, vulnerable profile: n = 43). The favorable profile group had significantly better neurodevelopmental outcome, better family functioning, and better parental mental health compared to the vulnerable profile group. Clinical factors were not significantly associated with profile group. The favorable profile group reported significantly better QoL and resilience and had larger total brain volumes. A positive family environment may be protective for long-term neurodevelopment and may outweigh the role of clinical factors. This study underlines the importance of family-centered care to promote favorable brain development and neurodevelopmental outcome. [ABSTRACT FROM AUTHOR]

Published

2024

16. A bimodal taxonomy of adult human brain sulcal morphology related to timing of fetal sulcation and trans-sulcal gene expression gradients.

Author

Snyder, William E., Vértes, Petra E., Kyriakopoulou, Vanessa, Wagstyl, Konrad, Williams, Logan Z.J., Moraczewski, Dustin, Thomas, Adam G., Karolis, Vyacheslav R., Seidlitz, Jakob, Rivière, Denis, Robinson, Emma C., Mangin, Jean-Francois, Raznahan, Armin, and Bullmore, Edward T.

Subjects

*MAGNETIC resonance imaging, *GENE expression, *CEREBRAL sulci, *FETAL development, *FETAL MRI, *FETAL brain

Abstract

We developed a computational pipeline (now provided as a resource) for measuring morphological similarity between cortical surface sulci to construct a sulcal phenotype network (SPN) from each magnetic resonance imaging (MRI) scan in an adult cohort (n = 34,725; 45–82 years). Networks estimated from pairwise similarities of 40 sulci on 5 morphological metrics comprised two clusters of sulci, represented also by the bimodal distribution of sulci on a linear-to-complex dimension. Linear sulci were more heritable and typically located in unimodal cortex, and complex sulci were less heritable and typically located in heteromodal cortex. Aligning these results with an independent fetal brain MRI cohort (n = 228; 21–36 gestational weeks), we found that linear sulci formed earlier, and the earliest and latest-forming sulci had the least between-adult variation. Using high-resolution maps of cortical gene expression, we found that linear sulcation is mechanistically underpinned by trans-sulcal gene expression gradients enriched for developmental processes. [Display omitted] • A pipeline is provided to extract 5 phenotypes for each of 40 sulci from brain MRI • Sulcal phenotype networks consistently find an axis of linear to complex shape • Adult sulcal complexity is linked to heritability, function, and fetal sulcation • Linear sulci demarcate zones of expression for developmentally enriched genes Snyder et al. develop measures of human cortical folding, revealing an axis of linear to complex sulcal shape across the adult cortex. This axis predicts the phased emergence of sulci in utero and boundaries of cortical gene expression, implicating these processes in the formation of mature cortical geometry. [ABSTRACT FROM AUTHOR]

Published

2024

17. A comprehensive overview of neuropsychiatric symptoms in adolescents with 22q11.2 deletion syndrome.

Author

Selten, I., Blok, J., Boerma, T., Djelantik, A. A. A. M. J., Houben, M., Wijnen, F., Zinkstok, J., Vorstman, J. A. S., and Fiksinski, A. M.

Subjects

*DIGEORGE syndrome, *GENETIC variation, *INTELLIGENCE tests, *CLINICAL medicine, *STATISTICAL correlation

Abstract

Background Methods Results Conclusions The 22q11.2 deletion syndrome (22q11DS) is associated with a variety of neuropsychiatric outcomes that vary across deletion carriers. We adopted a dimensional approach to provide a comprehensive overview of neuropsychiatric symptom expression in adolescents with 22q11DS and further our understanding of the observed phenotypical heterogeneity.Participants were 208 adolescents with 22q11DS between 10 and 19 years old. Semi‐structured clinical interviews and IQ tests were used to quantify symptom expression on multiple symptom dimensions, some reflecting DSM‐IV diagnostic domains. We investigated symptom expression in those with and without a formal DSM‐IV classification and examined between and within symptom dimensions. We used correlation analyses to explore associations between different symptom dimensions.We demonstrated inter‐individual differences in symptom expression, both between and within neuropsychiatric symptom dimensions. On most symptom dimensions, more than 50% of adolescents expressed at least one clinically relevant symptom. In addition, a significant proportion of youth without a formal DSM‐IV diagnosis reported clinically relevant symptoms (e.g. >85% of those without an ADHD diagnosis reported ADHD symptoms). The exploratory correlation analysis indicated mostly positive correlations between symptom dimensions.The finding that most adolescents with 22q11DS express neuropsychiatric symptoms, even in the absence of a DSM‐IV classification, has substantial ramifications for guiding adequate support. Findings may spur further research into the dimensional structure of neuropsychiatric symptoms in 22q11DS and aid in uncovering mechanisms that contribute to symptom expression. Ultimately, this provides leads to improve clinical care for 22q11DS and to understand phenotypical variation in other high‐risk genetic variants. [ABSTRACT FROM AUTHOR]

Published

2024

18. Most babies born at a French hospital before 26 weeks survived with good outcomes.

Author

Abello, Heloise, Vincent, Marine, Pradat, Pierre, Pastor‐Diez, Blandine, Hays, Stephane, and Picaud, Jean‐Charles

Subjects

*FRENCH people, *NEONATAL mortality, *GESTATIONAL age, *SURVIVAL rate, *COHORT analysis

Abstract

Aim Methods Results Conclusion The aim of this French study was to determine the neonatal morbidity, mortality and neurodevelopmental outcomes when infants born at the limit of viability reached 2 years of corrected age. We then compared the results with national and international cohorts.This study focused on 294 French infants born from 22 to 25 weeks of gestation in a single tertiary perinatal centre from January 2010 to December 2019. We used data on neonatal mortality and morbidity to calculate the survival rates of infants without moderate to severe neurodevelopmental and sensory deficits at 2 years of corrected age. These outcomes were compared with data from contemporary epidemiological studies of similar populations.Nearly two‐thirds (60.5%) of the infants survived to discharge, with varying rates based on their gestational ages, and 57.3% had no severe neonatal morbidity. The vast majority (90.4%) of the 166 alive and available at 2 years of corrected age were free of moderate to severe neurodevelopmental impairment. Our survival rates exceeded a national French cohort study, but were closely aligned with international cohorts.These findings highlight the importance of incorporating local data into ethical decision‐making about life‐saving treatment for infants at the limit of viability. [ABSTRACT FROM AUTHOR]

Published

2024

19. Impaired motor and social skill development in infancy predict high autistic traits in toddlerhood.

Author

Xiong, Wenjuan, Li, Xinyu, Huang, Xiaoqing, Xu, Jinghan, Qu, Zhiyi, Su, Yuanyuan, Li, Yin, Han, Yu, Cui, Tingkai, and Zhang, Xin

Subjects

*RECEIVER operating characteristic curves, *AUTISM spectrum disorders, *DISEASE risk factors, *EYE tracking, *INFANT development, *CHILDREN with autism spectrum disorders

Abstract

• Good social behavior in infancy was correlated to low autistic traits in toddlerhood. • Social behavior in infancy was positively correlated to IJA in toddlerhood. • Fine motor in infancy is predictive of autistic traits in general population. • Social behavior in infancy is predictive of autistic traits in general population. Autism Spectrum Disorder (ASD) is a neurodevelopmental disorder. Early diagnosis in the critical period is important for ASD children. Recent studies of neurodevelopmental behavioral features and joint attention in high-risk infants showed there are some special cues which can distinguish ASD from typical development infant. But the findings of high-risk population may not be applicable to the general population. It is necessary to "analogically" study the potential warning traits of ASD in infancy in the general population. We did a nested case-control study from June 2019 to November 2022 in Tianjin, China, including 76 general infants whom completed the neurodevelopmental evaluation, the Checklist for Autism in Toddlers-23 (CHAT-23) screening, and eye tracking task. Social behavior quotient in infancy was negatively correlated to CHAT-23 total scores in toddlerhood. Social behavior quotient in infancy was positively correlated to initiating joint attention in toddlerhood. Regression model showed that high fine motor scale and social behaviour scale quotient in infancy were associated with an decreased risk of the total score of CHAT-23 ≥ 2 in toddlerhood. The Receiver operating characteristic curve showed the social behaviour in infancy alone and the combination of fine motor and social behaviour in infancy contributed to auxiliary diagnosis of higher level of autistic traits in toddlerhood. These findings suggest that Impaired development of fine motor and social behavior in infancy are potential warning features of high autistic traits in general population. [ABSTRACT FROM AUTHOR]

Published

2024

20. Autism Spectrum Disorder Pathogenesis—A Cross-Sectional Literature Review Emphasizing Molecular Aspects.

Author

Horecka-Lewitowicz, Agata, Lewitowicz, Wojciech, Wawszczak-Kasza, Monika, Lim, Hyebin, and Lewitowicz, Piotr

Subjects

*ASPERGER'S syndrome, *AUTISM spectrum disorders, *LITERATURE reviews, *ION channels, *GENETIC techniques

Abstract

The etiology of autism spectrum disorder (ASD) has not yet been completely elucidated. Through time, multiple attempts have been made to uncover the causes of ASD. Different theories have been proposed, such as being caused by alterations in the gut–brain axis with an emphasis on gut dysbiosis, post-vaccine complications, and genetic or even autoimmune causes. In this review, we present data covering the main streams that focus on ASD etiology. Data collection occurred in many countries covering ethnically diverse subjects. Moreover, we aimed to show how the progress in genetic techniques influences the explanation of medical White Papers in the ASD area. There is no single evidence-based pathway that results in symptoms of ASD. Patient management has constantly only been symptomatic, and there is no ASD screening apart from symptom-based diagnosis and parent-mediated interventions. Multigene sequencing or epigenetic alterations hold promise in solving the disjointed molecular puzzle. Further research is needed, especially in the field of biogenetics and metabolomic aspects, because young children constitute the patient group most affected by ASD. In summary, to date, molecular research has confirmed multigene dysfunction as the causative factor of ASD, the multigene model with metabolomic influence would explain the heterogeneity in ASD, and it is proposed that ion channel dysfunction could play a core role in ASD pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mode of delivery and behavioral and neuropsychological outcomes in children at 10 years of age.

Author

Massa, Andrew, Yang, Zhixin, Tamashiro, Ryan, Isik, Oliver, Landau, Ruth, Miles, Caleb H., Von Ungern-Sternberg, Britta S., Whitehouse, Andrew, Li, Guohua, Pennell, Craig E., and Ing, Caleb

Subjects

*DELIVERY (Obstetrics), *CESAREAN section, *CHILD Behavior Checklist, *POISSON regression, *NEUROPSYCHOLOGICAL tests

Abstract

Previous studies have reported that mode of delivery, particularly cesarean delivery (CD), is associated with neurodevelopmental outcomes in children. This study evaluates behavioral and neuropsychological test scores in children based on mode of delivery.Children enrolled in the Raine Study from Western Australia, born between 1989 and 1992 by instrumental vaginal delivery (IVD), elective CD, and non-elective CD, were compared to those with spontaneous vaginal delivery (SVD). The primary outcome was the Child Behavior Checklist (CBCL) administered at age 10. Secondary outcomes included evaluations of language, motor function, cognition, and autistic traits. Multivariable linear regression was used to evaluate score differences by mode of delivery adjusted for sociodemographic and clinical characteristics, and Poisson regression was used to evaluate for increased risk of clinical deficit.Of 2,855 children, 1770 (62.0 %) were delivered via SVD, 480 (16.8 %) via IVD, 346 (12.1 %) via elective CD, and 259 (9.1 %) via non-elective CD. Non-elective CD was associated with higher (worse) CBCL Internalizing (+2.09; 95 % CI 0.49, 3.96; p=0.01) scores, and elective CD was associated with lower (worse) McCarron Assessment of Neuromuscular Development (MAND) (−3.48; 95 % CI −5.61, −1.35; p=0.001) scores. Differences were not seen in other outcomes, and increased risk of clinical deficit was not observed with either the CBCL Internalizing or MAND scores.Differences in behavior and motor function were observed in children delivered by CD, but given that score differences were not associated with increased incidence of clinical deficit, clinical significance may be limited. [ABSTRACT FROM AUTHOR]

Published

2024

22. Occupational exposure to organic solvents during pregnancy and child behavior from early childhood to adolescence.

Author

Tillaut, Hélène, Costet, Nathalie, Monfort, Christine, Béranger, Rémi, Garlantézec, Ronan, Rouget, Florence, Cordier, Sylvaine, Saint-Amour, Dave, and Chevrier, Cécile

Subjects

*CHILD behavior, *CHILD Behavior Checklist, *INTERNALIZING behavior, *OCCUPATIONAL exposure, *PRENATAL exposure

Abstract

Background: Organic solvents are used in formulating an extensive range of products for professional use. Animal and human studies suggest that in utero solvent exposure may affect neurodevelopment. Our objective was to assess the association between occupational exposure to solvents during pregnancy and child behavior aged 2–12 years. Methods: The French mother-child cohort PELAGIE (2002–2006) included 3,421 women recruited in early pregnancy. Occupational exposure to solvents was self-reported. For 459 children, parents used a questionnaire derived from the Child Behavior Checklist and the Preschool Social Behavior Questionnaire to assess their child's behavior, at age 2, and the Strengths and Difficulties Questionnaire at ages 6 and 12. A cross-lagged structural equation modeling approach was used to assess direct and indirect associations between exposure and child behavior. Results: At age 2, an increased externalizing behavior score was suggested with prenatal exposure to solvents (mean change in standardized score (95%CI): 0.28 (-0.01, 0.57) for occasional exposure and 0.23 (-0.05, 0.51) for regular exposure). At ages 6 and 12, distinct sex-specific patterns were observed: among boys, no association with externalizing behavior was observed, while among girls, an association was seen for both occasional and regular exposure (total effect at age 12: 0.45 (0.06,0.83) and 0.40 (0.03, 0.76), respectively). For both sexes, occasional exposure may be associated with internalizing behavior at ages 6 and 12 (total effect at age 6: 0.37 (0.06, 0.68) and at age 12: 0.27 (-0.08, 0.62)). Conclusions: Occupational exposure to solvents during pregnancy may impact child behavior through either direct or cumulative effects during childhood; these associations may persist until early adolescence, especially among girls. [ABSTRACT FROM AUTHOR]

Published

2024

23. Child neurodevelopmental services – How do we do it differently?

Author

Espie, Audrey

Abstract

This article reflects on the service changes and sustainability issues facing health services in Scotland as neurodevelopmental differences are more prevalent across the population. Details are given of a Test of Change and subsequent new service delivery model in child services in the NHS, informed by the experiences of those who access the service. [ABSTRACT FROM AUTHOR]

Published

2024

24. Conceptualizing avoidant/restrictive food intake disorder via an executive functioning lens.

Author

Richson, Brianne N., Abber, Sophie R., and Wierenga, Christina E.

Subjects

*CONTROL (Psychology), *EXECUTIVE function, *NEURAL development, *EATING disorders, *MEMORY, *FOOD habits, *ANOREXIA nervosa, *COGNITIVE flexibility, *THOUGHT & thinking, *PSYCHOSOCIAL factors

Abstract

Avoidant/restrictive food intake disorder (ARFID) is a heterogeneous disorder wherein restrictive eating is primarily attributed to non‐shape/weight‐based reasons (e.g., sensory sensitivity) that empirical research continues to explore. Mounting evidence suggests that ARFID often presents alongside neurodevelopmental diagnoses (NDs) or divergent neurodevelopment broadly. Executive functioning (EF) differences often characterize divergent neurodevelopmental trajectories. Additionally, restrictive eating in anorexia nervosa has been conceptualized as related to EF factors (e.g., set shifting). Given the neurodevelopmental phenotype that may be associated with ARFID and the role of EF in anorexia nervosa, this paper proposes EF as a potentially important, yet understudied factor in ARFID pathology. We posit that various observed ARFID behavioral/cognitive tendencies can be conceptualized in relation to EF differences. We contextualize commonly observed ARFID presentations within "core" EF components (i.e., cognitive flexibility, working memory, inhibitory control), leading to hypotheses about EF in ARFID. Finally, we offer additional considerations/directions for future research on EF in ARFID. Increased research on EF in ARFID is needed to consider this potential common factor in the etiology and maintenance of this heterogeneous disorder. We aim to promote further consideration of EF in ARFID etiology, maintenance, and treatment‐outcome research. Public Significance: This article proposes that aspects of executive functioning (EF) may play a role in the onset and maintenance of avoidant/restrictive food intake disorder (ARFID), although this notion is largely untested by existing research. Further research on the role of EF in ARFID may assist with refining models and treatments for this heterogeneous disorder. [ABSTRACT FROM AUTHOR]

Published

2024

25. Subcortical Change and Neurohabilitation Treatment Adherence Effects in Extremely Preterm Children.

Author

Castro-Chavira, Susana A., Gutiérrez-Hernández, Claudia C., Carrillo-Prado, Cristina, and Harmony, Thalía

Subjects

*PATIENT compliance, *MAGNETIC resonance imaging, *VESTIBULAR stimulation, *PREMATURE labor, *NEURAL development

Abstract

Extremely preterm birth entails an increased risk for multimorbidity and the prevalence of developmental deficits because this risk is negatively correlated to the number of gestation weeks. This work evaluated subcortical volume changes in children born extremely preterm who received Katona neurohabilitation, as well as the effects of subcortical volume and treatment adherence on their three-year-old neurodevelopment outcomes. Fifteen extremely preterm-born participants were treated from two months to two years old and followed up until past three years of age. The participants received Katona neurohabilitation, which provides vestibular and proprioceptive stimulation and promotes movement integration through the early, intensive practice of human-specific elementary movements. Subcortical brain volumes from magnetic resonance images were obtained at the beginning and after treatment. Also, treatment adherence to Katona neurohabilitation and neurodevelopment outcomes were measured. The results showed that absolute subcortical volumes increased after treatment; however, when adjusted by intracranial volume, these volumes decreased. Subcortical function inhibition allows cortical control and increased connectivity, which may explain decreased adjusted volume. Regression analyses showed that after-treatment hippocampal volumes had a discrete predictive value. However, treatment adherence showed a clear effect on mental and psychomotor neurodevelopment. Thus, the effectiveness of Katona neurohabilitation is constrained by treatment adherence. [ABSTRACT FROM AUTHOR]

Published

2024

26. A GWAS for grip strength in cohorts of children—Advantages of analysing young participants for this trait.

Author

Abbondanza, Filippo, Wang, Carol A., Schmitz, Judith, Marianski, Krzysztof, Pennell, Craig E., Whitehouse, Andrew J. O., and Paracchini, Silvia

Subjects

*GENETIC risk score, *LOCUS (Genetics), *MUSCLE strength, *GENE expression, *CORONARY artery disease, *GRIP strength

Abstract

Grip strength (GS) is a proxy measure for muscular strength and a predictor for bone fracture risk among other diseases. Previous genome‐wide association studies (GWASs) have been conducted in large cohorts of adults focusing on scores collected for the dominant hand, therefore increasing the likelihood of confounding effects by environmental factors. Here, we perform the first GWAS meta‐analyses on maximal GS with the dominant (GSD) and non‐dominant (GSND) hand in two cohorts of children (ALSPAC, N = 5450; age range = 10.65–13.61; Raine Study, N = 1162, age range: 9.42–12.38 years). We identified a novel significant association for GSND (rs9546244, LINC02465, p = 3.43e−08) and replicated associations previously reported in adults including with a HOXB3 gene marker that shows an expression quantitative trait locus (eQTL) effect. Despite a much smaller sample (~3%) compared with the UK Biobank we replicated correlation analyses previously reported in this much larger adult cohort, such as a negative correlation with coronary artery disease. Although the results from the polygenic risk score (PRS) analyses did not survive multiple testing correction, we observed nominally significant associations between GS and risk of overall fracture, as previously reported, as well ADHD which will require further investigations. Finally, we observed a higher SNP‐heritability (24%–41%) compared with previous studies (4%–24%) in adults. Overall, our results suggest that cohorts of children might be better suited for genetic studies of grip strength, possibly due to the shorter exposure to confounding environmental factors compared with adults. [ABSTRACT FROM AUTHOR]

Published

2024

27. Paediatric magnetoencephalography and its role in neurodevelopmental disorders.

Author

Rhodes, Natalie, Sato, Julie, Safar, Kristina, Amorim, Kaela, Taylor, Margot J, and Brookes, Matthew J

Subjects

*ATTENTION-deficit hyperactivity disorder, *AUTISM spectrum disorders, *TECHNOLOGICAL innovations, *SENSOR arrays, *MAGNETIC fields

Abstract

Magnetoencephalography (MEG) is a non-invasive neuroimaging technique that assesses neurophysiology through the detection of the magnetic fields generated by neural currents. In this way, it is sensitive to brain activity, both in individual regions and brain-wide networks. Conventional MEG systems employ an array of sensors that must be cryogenically cooled to low temperature, in a rigid one-size-fits-all helmet. Systems are typically designed to fit adults and are therefore challenging to use for paediatric measurements. Despite this, MEG has been employed successfully in research to investigate neurodevelopmental disorders, and clinically for presurgical planning for paediatric epilepsy. Here, we review the applications of MEG in children, specifically focussing on autism spectrum disorder and attention-deficit hyperactivity disorder. Our review demonstrates the significance of MEG in furthering our understanding of these neurodevelopmental disorders, while also highlighting the limitations of current instrumentation. We also consider the future of paediatric MEG, with a focus on newly developed instrumentation based on optically pumped magnetometers (OPM-MEG). We provide a brief overview of the development of OPM-MEG systems, and how this new technology might enable investigation of brain function in very young children and infants. [ABSTRACT FROM AUTHOR]

Published

2024

28. The Spinocerebellar Ataxia 34-Causing W246G ELOVL4 Mutation Does Not Alter Cerebellar Neuron Populations in a Rat Model.

Author

Fessler, Jennifer L., Stiles, Megan A., Agbaga, Martin-Paul, Ahmad, Mohiuddin, and Sherry, David M.

Subjects

*GRANULE cells, *LABORATORY rats, *CELL cycle regulation, *PURKINJE cells, *SPINOCEREBELLAR ataxia

Abstract

Spinocerebellar ataxia 34 (SCA34) is an autosomal dominant disease that arises from point mutations in the fatty acid elongase, Elongation of Very Long Chain Fatty Acids 4 (ELOVL4), which is essential for the synthesis of Very Long Chain-Saturated Fatty Acids (VLC-SFA) and Very Long Chain-Polyunsaturated Fatty Acids (VLC-PUFA) (28–34 carbons long). SCA34 is considered a neurodegenerative disease. However, a novel rat model of SCA34 (SCA34-KI rat) with knock-in of the W246G ELOVL4 mutation that causes human SCA34 shows early motor impairment and aberrant synaptic transmission and plasticity without overt neurodegeneration. ELOVL4 is expressed in neurogenic regions of the developing brain, is implicated in cell cycle regulation, and ELOVL4 mutations that cause neuroichthyosis lead to developmental brain malformation, suggesting that aberrant neuron generation due to ELOVL4 mutations might contribute to SCA34. To test whether W246G ELOVL4 altered neuronal generation or survival in the cerebellum, we compared the numbers of Purkinje cells, unipolar brush cells, molecular layer interneurons, granule and displaced granule cells in the cerebellum of wildtype, heterozygous, and homozygous SCA34-KI rats at four months of age, when motor impairment is already present. An unbiased, semi-automated method based on Cellpose 2.0 and ImageJ was used to quantify neuronal populations in cerebellar sections immunolabeled for known neuron-specific markers. Neuronal populations and cortical structure were unaffected by the W246G ELOVL4 mutation by four months of age, a time when synaptic and motor dysfunction are already present, suggesting that SCA34 pathology originates from synaptic dysfunction due to VLC-SFA deficiency, rather than aberrant neuronal production or neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2024

29. Ubiquitin system mutations in neurological diseases.

Author

Zenge, Colin and Ordureau, Alban

Subjects

*UBIQUITIN, *NEUROLOGICAL disorders, *LIGASES, *NEURODEGENERATION, *STEM cells, *UBIQUITIN ligases

Abstract

The ubiquitin system regulates protein homeostasis and is critical for neurophysiology. Protein-coding mutations in ubiquitin ligases and deubiquitylating enzymes (DUBs) underlie numerous neurological diseases. Substrate profiling for ubiquitin ligases and DUBs in neurons has begun to help identify the mechanism behind some neurodevelopmental and neurodegenerative diseases. Targeting the ubiquitin system may offer therapeutic potential for neurological disease. Neuronal ubiquitin balance impacts the fate of countless cellular proteins, and its disruption is associated with various neurological disorders. The ubiquitin system is critical for proper neuronal cell state transitions and the clearance of misfolded or aggregated proteins that threaten cellular integrity. This article reviews the state of and recent advancements in our understanding of the disruptions to components of the ubiquitin system, in particular E3 ligases and deubiquitylases, in neurodevelopmental and neurodegenerative diseases. Specific focus is on enzymes with recent progress in their characterization, including identifying enzyme-substrate pairs, the use of stem cell and animal models, and the development of therapeutics for ubiquitin-related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

30. The cumulative impact of clinical risk on brain networks and associations with executive function impairments in adolescents with congenital heart disease.

Author

Ehrler, Melanie, Speckert, Anna, Kretschmar, Oliver, Tuura O'Gorman, Ruth, Latal, Beatrice, and Jakab, Andras

Subjects

*DIFFUSION magnetic resonance imaging, *CONGENITAL heart disease, *EXECUTIVE function, *LARGE-scale brain networks, *CARDIAC patients

Abstract

Patients with congenital heart disease (CHD) demonstrate altered structural brain network connectivity. However, there is large variability between reported results and little information is available to identify those patients at highest risk for brain alterations. Thus, we aimed to investigate if network connectivity measures were associated with the individual patient's cumulative load of clinical risk factors and with family‐environmental factors in a cohort of adolescents with CHD. Further, we investigated associations with executive function impairments. In 53 adolescents with CHD who underwent open‐heart surgery during infancy, and 75 healthy controls, diffusion magnetic resonance imaging and neuropsychological assessment was conducted at a mean age of 13.2 ± 1.3 years. Structural connectomes were constructed using constrained spherical deconvolution tractography. Graph theory and network‐based statistics were applied to investigate network connectivity measures. A cumulative clinical risk (CCR) score was built by summing up binary risk factors (neonatal, cardiac, neurologic) based on clinically relevant thresholds. The role of family‐environmental factors (parental education, parental mental health, and family function) was investigated. An age‐adjusted executive function summary score was built from nine neuropsychological tests. While network integration and segregation were preserved in adolescents with CHD, they showed lower edge strength in a dense subnetwork. A higher CCR score was associated with lower network segregation, edge strength, and executive function performance. Edge strength was particularly reduced in a subnetwork including inter‐frontal and fronto‐parietal‐thalamic connections. There was no association with family‐environmental factors. Poorer executive functioning was associated with lower network integration and segregation. We demonstrated evidence for alterations of network connectivity strength in adolescents with CHD — particularly in those patients who face a cumulative exposure to multiple clinical risk factors over time. Quantifying the cumulative load of risk early in life may help to better predict trajectories of brain development in order to identify and support the most vulnerable patients as early as possible. [ABSTRACT FROM AUTHOR]

Published

2024

31. Neurogenesis in Caenorhabditis elegans.

Author

Poole, Richard J, Flames, Nuria, and Cochella, Luisa

Subjects

*NEURAL physiology, *NEURAL development, *NEURONS, *NEUROPLASTICITY, *NEUROPHYSIOLOGY, *TRANSCRIPTION factors, *GENES, *GENE expression, *CHROMOSOMES, *CAENORHABDITIS elegans, *STEM cells, *GENETICS

Abstract

Animals rely on their nervous systems to process sensory inputs, integrate these with internal signals, and produce behavioral outputs. This is enabled by the highly specialized morphologies and functions of neurons. Neuronal cells share multiple structural and physiological features, but they also come in a large diversity of types or classes that give the nervous system its broad range of functions and plasticity. This diversity, first recognized over a century ago, spurred classification efforts based on morphology, function, and molecular criteria. Caenorhabditis elegans , with its precisely mapped nervous system at the anatomical level, an extensive molecular description of most of its neurons, and its genetic amenability, has been a prime model for understanding how neurons develop and diversify at a mechanistic level. Here, we review the gene regulatory mechanisms driving neurogenesis and the diversification of neuron classes and subclasses in C. elegans. We discuss our current understanding of the specification of neuronal progenitors and their differentiation in terms of the transcription factors involved and ensuing changes in gene expression and chromatin landscape. The central theme that has emerged is that the identity of a neuron is defined by modules of gene batteries that are under control of parallel yet interconnected regulatory mechanisms. We focus on how, to achieve these terminal identities, cells integrate information along their developmental lineages. Moreover, we discuss how neurons are diversified postembryonically in a time-, genetic sex-, and activity-dependent manner. Finally, we discuss how the understanding of neuronal development can provide insights into the evolution of neuronal diversity. [ABSTRACT FROM AUTHOR]

Published

2024

32. Glial Control of Cortical Neuronal Circuit Maturation and Plasticity.

Author

Faust, Travis E., Devlin, Benjamin A., Farhy-Tselnicker, Isabella, Ferro, Austin, Postolache, Maggie, and Xin, Wendy

Subjects

*NEUROPLASTICITY, *NEUROGLIA, *MICROGLIA, *OPEN-ended questions, *NEURAL development

Abstract

The brain is a highly adaptable organ that is molded by experience throughout life. Although the field of neuroscience has historically focused on intrinsic neuronal mechanisms of plasticity, there is growing evidence that multiple glial populations regulate the timing and extent of neuronal plasticity, particularly over the course of development. This review highlights recent discoveries on the role of glial cells in the establishment of cortical circuits and the regulation of experience-dependent neuronal plasticity during critical periods of neurodevelopment. These studies provide strong evidence that neuronal circuit maturation and plasticity are non-cell autonomous processes that require both glial–neuronal and glial–glial cross talk to proceed. We conclude by discussing open questions that will continue to guide research in this nascent field. [ABSTRACT FROM AUTHOR]

Published

2024

33. Safety and feasibility pilot study of continuous low‐dose maternal supplemental oxygen in fetal single ventricle heart disease.

Author

Lee, F.‐T., Sun, L., Szabo, A., Milligan, N., Saini, A., Chetan, D., Hunt, J.‐L., Macgowan, C. K., Freud, L., Jaeggi, E., Van Mieghem, T., Kingdom, J., Miller, S. P., and Seed, M.

Subjects

*CARDIAC magnetic resonance imaging, *PREGNANT women, *HEART ventricles, *FETAL development, *PERINATAL growth

Abstract

Objective: Fetuses with single ventricle physiology (SVP) exhibit reductions in fetal cerebral oxygenation, with associated delays in fetal brain growth and neurodevelopmental outcomes. Maternal supplemental oxygen (MSO) has been proposed to improve fetal brain growth, but current evidence on dosing, candidacy and outcomes is limited. In this pilot study, we evaluated the safety and feasibility of continuous low‐dose MSO in the setting of SVP. Methods: This single‐center, open‐label, pilot phase‐1 safety and feasibility clinical trial included 25 pregnant individuals with a diagnosis of fetal SVP. Participants self‐administered continuous MSO using medical‐grade oxygen concentrators for up to 24 h per day from the second half of gestation until delivery. The primary aim was the evaluation of the safety profile and feasibility of MSO. A secondary preliminary analysis was performed to assess the impact of MSO on the fetal circulation using echocardiography and late‐gestation cardiovascular magnetic resonance imaging. Early outcomes were assessed, including perinatal growth and preoperative brain injury, and neurodevelopmental outcomes were assessed at 18 months using the Bayley Scales of Infant and Toddler Development 3rd edition, and compared with those of a contemporary fetal SVP cohort (n = 217) that received the normal standard of care (SOC). Results: Among the 25 participants, the median maternal age at conception was 35 years, and fetal SVP diagnoses included 16 with right ventricle dominant, eight with left ventricle dominant and one with indeterminate ventricular morphology. Participants started the trial at approximately 29 + 2 weeks' gestation and self‐administered MSO for a median of 16.1 h per day for 63 days, accumulating a median of 1029 h of oxygen intake from enrolment until delivery. The only treatment‐associated adverse events were nasal complications that were resolved typically by attaching a humidifier unit to the oxygen concentrator. No premature closure of the ductus arteriosus or unexpected fetal demise was observed. In the secondary analysis, MSO was not associated with any changes in fetal growth, middle cerebral artery pulsatility index, cerebroplacental ratio or head‐circumference‐to‐abdominal‐circumference ratio Z‐scores over gestation compared with SOC. Although MSO was associated with changes in umbilical artery pulsatility index Z‐score over the study period compared with SOC (P = 0.02), this was probably due to initial baseline differences in placental resistance. At late‐gestation cardiovascular magnetic resonance imaging, MSO was not associated with an increase in fetal cerebral oxygen delivery. Similarly, no differences were observed in neonatal outcomes, including preoperative brain weight Z‐score and brain injury, mortality by 18 months of age and neurodevelopmental outcomes at 18 months of age. Conclusions: This pilot phase‐1 clinical trial indicates that low‐dose MSO therapy is safe and well tolerated in pregnancies diagnosed with fetal SVP. However, our protocol was not associated with an increase in fetal cerebral oxygen delivery or improvements in early neurological or neurodevelopmental outcomes. © 2024 International Society of Ultrasound in Obstetrics and Gynecology. [ABSTRACT FROM AUTHOR]

Published

2024

34. Association between general anesthesia in early childhood and neurodevelopment up to 4 years of age: the Japan Environment and Children's Study.

Author

Nagai, Takahisa, Yoda, Yoshiko, Tokuda, Narumi, Takeshima, Yasuhiro, Hirose, Munetaka, Shima, Masayuki, Japan Environment, Children's Study (JECS) Group, Kamijima, Michihiro, Yamazaki, Shin, Ohya, Yukihiro, Kishi, Reiko, Yaegashi, Nobuo, Hashimoto, Koichi, Mori, Chisato, Ito, Shuichi, Yamagata, Zentaro, Inadera, Hidekuni, Nakayama, Takeo, Sobue, Tomotaka, and Kageyama, Seiji

Subjects

*GENERAL anesthesia, *PEDIATRIC anesthesia, *ODDS ratio, *LOGISTIC regression analysis, *PREGNANT women

Abstract

Purpose: The effects of general anesthesia on neurodevelopment in children remain controversial. We explored the relationship between general anesthesia and neurodevelopment in children participating in the Japan Environment and Children's Study (JECS). Methods: This study enrolled children born between 37 and 41 weeks of pregnancy via single-vaginal delivery to pregnant women registered in the JECS between January 2011 and March 2014. Data were collected from mother-completed questionnaires and medical transcripts. Neurodevelopment in five domains was assessed every 6 months between 12 and 48 months of age, using the Ages and Stages Questionnaires. The associations between general anesthesia exposure during early childhood and neurodevelopment in children were evaluated at each time point. Adjusted odds ratios and 95% confidence intervals were estimated after covariate adjustment using logistic regression models. Results: Children who received general anesthesia before age 1 year had higher risks of neurodevelopmental delay in all five domains throughout the observational period. The largest risk was for gross motor delay at 18 months (adjusted odds ratio: 3.51; 95% confidence interval: 2.75–4.49). The effects on the incidence of neurodevelopmental delays after age 3 were not observed except for problem solving at 48 months. The risk of neurodevelopmental delay in children who first received general anesthesia after age 1 was considerably small. Conclusions: This study suggests that general anesthesia administration before age 1 is associated with neurodevelopmental delay during 1–4 years of age. The risk of general anesthesia after age 1 may be small. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Endoplasmic Reticulum and Its Contacts: Emerging Roles in Axon Development, Neurotransmission, and Degeneration.

Author

Kuijpers, Marijn, Nguyen, Phuong T., and Haucke, Volker

Subjects

*LIPID transfer protein, *ENDOPLASMIC reticulum, *MEMBRANE lipids, *AXONS, *ORGANELLES, *ION channels, *CALCIUM channels

Abstract

The neuronal endoplasmic reticulum (ER) consists of a dynamic, tubular network that extends all the way from the soma into dendrites, axons, and synapses. This morphology gives rise to an enormous membrane surface area that, through the presence of tethering proteins, lipid transfer proteins, and ion channels, plays critical roles in local calcium regulation, membrane dynamics, and the supply of ions and lipids to other organelles. Here, we summarize recent advances that highlight the various roles of the neuronal ER in axonal growth, repair, and presynaptic function. We review the variety of contact sites between the ER and other axonal organelles and describe their influence on neurodevelopment and neurotransmission. [ABSTRACT FROM AUTHOR]

Published

2024

36. Respiratory Severity Score and Neurodevelopmental Outcomes at Age 3 Years in Extremely Preterm Infants.

Author

Tamai, Kei, Takeuchi, Akihito, Nakamura, Makoto, Matsumoto, Naomi, Yorifuji, Takashi, and Kageyama, Misao

Subjects

*RISK assessment, *POISSON distribution, *CHILD psychopathology, *INFANT mortality, *OXYGEN, *PREMATURE infants, *NEONATAL intensive care units, *SEVERITY of illness index, *RETROSPECTIVE studies, *NEONATAL intensive care, *CHILDREN'S hospitals, *DESCRIPTIVE statistics, *CEREBRAL palsy, *LONGITUDINAL method, *ODDS ratio, *REACTIVE oxygen species, *OXYGEN in the body, *MEDICAL records, *ACQUISITION of data, *GESTATIONAL age, *ARTIFICIAL respiration, *RESPIRATORY distress syndrome, *COMPARATIVE studies, *BIRTH weight, *CONFIDENCE intervals, *PSYCHOSOCIAL factors, *REGRESSION analysis, *DISEASE risk factors, *DISEASE complications, *CHILDREN

Abstract

Objective We aimed to examine the association between respiratory severity score (RSS; mean airway pressure × fraction of inspired oxygen) and neurodevelopmental outcomes in extremely preterm infants. Study Design This was a single-center, retrospective cohort study. We analyzed data from extremely preterm infants who were admitted to the neonatal intensive care unit at Okayama Medical Center between 2010 and 2019. Infants without invasive respiratory management during the first day of life were excluded. The exposure variable was the highest RSS during the first day of life. RSS was categorized into two groups: low (<3.5) and high (≥3.5) RSS. The primary outcome was death or neurodevelopmental impairment at age 3 years, defined as cognitive impairment (developmental quotient <70) or the presence of cerebral palsy. Secondary outcomes were the components of the primary outcome. We conducted robust Poisson regression analyses to investigate the association between RSS category and primary and secondary outcomes, adjusting for perinatal confounders. Results The cohort included 97 infants with neurodevelopmental data, of whom 34 and 63 infants were in the low- and high-RSS categories, respectively. The median (interquartile range) gestational age and birth weight were 26.0 (24.7–26.9) and 25.7 (24.6–26.7) weeks and 761 (584–866) and 806 (618–898) g for infants in the low- and high-RSS categories, respectively. Compared with infants in the low-RSS category, those in the high-RSS category had a greater risk of death or neurodevelopmental impairment at age 3 years (26.3 vs. 42.3%; adjusted risk ratio [RR], 2.0; 95% confidence interval [CI], 1.1–3.5) and neurodevelopmental impairment at age 3 years (17.6 vs. 28.6%; adjusted RR, 2.7; 95% CI, 1.3–5.9). Conclusion High RSS (≥3.5) during the first day of life was associated with an increased risk of neurodevelopmental impairment at age 3 years in extremely preterm infants. Key Points RSS is a valuable tool for assessing respiratory failure. RSS = Mean airway pressure × fraction of inspired oxygen. RSS at age 1 day was associated with neurodevelopment. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effect of cannabidiol as a neuroprotective agent on neurodevelopmental impairment in rats with neonatal hypoxia.

Author

Hernández-Suárez, Ángela, Marin-Castañeda, Luis A., Rubio, Carmen, and Romo-Parra, Héctor

Subjects

*CEREBRAL anoxia, *CEREBRAL palsy, *TWO-way analysis of variance, *CANNABINOIDS, *ONE-way analysis of variance, *RATS, *SPRAGUE Dawley rats

Abstract

This study aims to investigate the neuroprotective effects of cannabidiol (CBD) on neurodevelopmental impairments in rats subjected to neonatal hypoxia, specifically examining its potential to mitigate motor and sensory deficits without the confounding effects of ischemia. Neonatal Sprague-Dawley rats were allocated to one of four groups: Control, Control-CBD, Hypoxia, and Hypoxia-CBD. Hypoxia was induced on postnatal days 0 and 1. CBD (50 mg/kg) was administered orally for 14 days starting at postnatal day 0. Neurodevelopmental outcomes were assessed using the Neurodevelopmental Reflex Testing in Neonatal Rat Pups scale and the Revised Neurobehavioral Severity Scale for rodents. Statistical analyses were conducted using two-way and one-way ANOVA, with Tukey's post-hoc tests for group comparisons. Pup weights were recorded on specified postnatal days, with no significant differences observed across the groups (p = 0.1834). Significant neurological impairments due to hypoxia were noted in the Control group compared to the Hypoxia group, particularly in hindlimb grasping on postnatal day 3 (p = 0.0025), posture on postnatal day 12 (p = 0.0073), and in general balance and sound reflex on postnatal day 20 (p = 0.0016 and p = 0.0068, respectively). Additionally, a statistically significant improvement in posture was observed in the Hypoxia-CBD group compared to the Hypoxia group alone (p = 0.0024). Our findings indicate that CBD possesses neuroprotective properties that significantly counteract the neurodevelopmental impairments induced by neonatal hypoxia in rats. This study not only supports the therapeutic potential of CBD in managing conditions characterized by neurodevelopmental challenges due to hypoxia but also underscores the necessity for further investigation into the specific molecular mechanisms driving CBD's neuroprotective effects. Further research is essential to explore CBD's clinical applications and its potential role in treating human neurodevelopmental disorders. [ABSTRACT FROM AUTHOR]

Published

2024

38. Maternal high-fat diet-induced microbiota changes are associated with alterations in embryonic brain metabolites and adolescent behaviour.

Author

Ratsika, Anna, Codagnone, Martin G., Bastiaanssen, Thomaz F.S., Hoffmann Sarda, Fabiana A., Lynch, Caoimhe M.K., Ventura-Silva, Ana Paula, Rosell-Cardona, Cristina, Caputi, Valentina, Stanton, Catherine, Fülling, Christine, Clarke, Gerard, and Cryan, John F.

Subjects

*NEURAL development, *QUINOLINIC acid, *NEUROPLASTICITY, *HIGH-fat diet, *PERINATAL period

Abstract

[Display omitted] • mHFD alters maternal gut microbiota composition, function and plasma metabolites. • Excitatory neurotransmission in fetal brain is sensitive to mHFD. • mHFD leads to hyperactivity and alters glutamatergic genes in the adolescent brain. The developing central nervous system is highly sensitive to nutrient changes during the perinatal period, emphasising the potential impact of alterations of maternal diet on offspring brain development and behaviour. A growing body of research implicates the gut microbiota in neurodevelopment and behaviour. Maternal overweight and obesity during the perinatal period has been linked to changes in neurodevelopment, plasticity and affective disorders in the offspring, with implications for microbial signals from the maternal gut. Here we investigate the impact of maternal high-fat diet (mHFD)-induced changes in microbial signals on offspring brain development, and neuroimmune signals, and the enduring effects on behaviour into adolescence. We first demonstrate that maternal caecal microbiota composition at term pregnancy (embryonic day 18: E18) differs significantly in response to maternal diet. Moreover, mHFD resulted in the upregulation of microbial genes in the maternal intestinal tissue linked to alterations in quinolinic acid synthesis and elevated kynurenine levels in the maternal plasma, both neuronal plasticity mediators related to glutamate metabolism. Metabolomics of mHFD embryonic brains at E18 also detected molecules linked to glutamate-glutamine cycle, including glutamic acid, glutathione disulphide, and kynurenine. During adolescence, the mHFD offspring exhibited increased locomotor activity and anxiety-like behaviour in a sex-dependent manner, along with upregulation of glutamate-related genes compared to controls. Overall, our results demonstrate that maternal exposure to high-fat diet results in microbiota changes, behavioural imprinting, altered brain metabolism, and glutamate signalling during critical developmental windows during the perinatal period. [ABSTRACT FROM AUTHOR]

Published

2024

39. The mediating effect of maternal gut microbiota between prenatal psychological distress and neurodevelopment of infants.

Author

Fan, Xiaoxiao, Zang, Tianzi, Wu, Ni, Liu, Jun, Sun, Yu, Slack, Julia, Bai, Jinbing, and Liu, Yanqun

Subjects

*SHORT-chain fatty acids, *FINE motor ability, *LIQUID chromatography-mass spectrometry, *PSYCHOLOGICAL distress, *GUT microbiome

Abstract

Prenatal psychological distress and maternal inflammation can increase the risk of neurodevelopmental delay in offspring; recently, the gut microbiota has been shown to may be a potential mechanism behind this association and not fully elucidated in population study. Seventy-two maternal-infant pairs who completed the assessments of prenatal psychological distress during the third trimester and neurodevelopment of infants at age 6–8 months of age were included in this study. The gut microbiota and its short-chain fatty acids (SCFAs) of maternal-infant were determined by 16S rRNA sequencing and liquid chromatography-mass spectrometry analysis. Inflammatory cytokines in the blood of pregnant women during the third trimester were detected by luminex liquid suspension microarrays. This study found that infants in the prenatal psychological distress group had poorer fine motor skills (β = −4.396, 95 % confidence interval (CI) = −8.546, −0.246, p = 0.038), problem-solving skills (β = −5.198, 95 % CI = -10.358, −0.038, p = 0.048) and total development (β = −22.303, 95%CI = -41.453, −3.153, p = 0.022) compared to the control group. The study also indicated that the higher level of interleukin-1β (IL-1β) (β = −1.951, 95%CI = −3.321, −0.581, p = 0.005) and interferon-inducible protein-10 (IP-10) (β = −0.019, 95%CI = -0.034, −0.004, p = 0.015) during the third trimester, the poorer fine motor skills in infants. Also, the higher level of IL-10 (β = −0.498, 95%CI = -0.862, −0.133, p = 0.007), IL-12p70 (β = −0.113, 95%CI = -0.178, −0.048, p = 0.001), IL-17 A (β = −0.817, 95%CI = -1.517, −0.118, p = 0.022), interferon-γ (β = −0.863, 95%CI = -1.304, −0.422, p < 0.001), IP-10 (β = −0.020, 95%CI = -0.038, −0.001, p = 0.035), and regulated upon activation normal T cell expressed and secreted (β = −0.002, 95%CI = -0.003, −0.001, p = 0.005) during the third trimester, the poorer problem-solving skills in infants. After controlling for relevant covariates, this study found that maternal gut microbiota Roseburia mediates the relationship between prenatal psychological distress and total neurodevelopment of infants (a = 0.433, 95%CI = 0.079, 0.787, p = 0.017; b = −19.835, 95%CI = -33.877, −5.792, p = 0.006; c = 22.407, 95%CI = -43.207,-1.608, p = 0.035; indirect effect = −8.584, 95%CI = -21.227, −0.587). This is the first study to emphasize the role of the maternal-infant gut microbiota in prenatal psychological distress and infant neurodevelopment. Further studies are needed to explore the biological mechanisms underlying the relationship between prenatal psychological distress, maternal-infant gut microbiota, and infant neurodevelopment. • No studies have been conducted on the role of the maternal-infant gut microbiota and its SCFAs in the association between prenatal psychological distress and inflammation during pregnancy and the neurodevelopment of offspring. • This study provided preliminary evidence that the maternal-infant gut microbiota and its metabolites (e.g., SCFAs) are associated with prenatal psychological distress, inflammatory cytokines during pregnancy, and infant neurodevelopment. • Results of this study demonstrated that maternal Roseburia during pregnancy acts as a mediator in the relationship between prenatal psychological distress and infant total neurodevelopment. [ABSTRACT FROM AUTHOR]

Published

2024

40. Sleep in the first 1,800 days of life: a critical factor in health and development that deserves more attention.

Author

Sheldon, Stephen H. and Owens, Judith

Subjects

*NEURAL development, *SLEEP quality, *VETERANS, *PEDIATRICS, *POST-traumatic stress disorder

Published

2024

41. Postnatal cytomegalovirus infections did not alter amplitude‐integrated electroencephalography signals or general movements in preterm infants.

Author

Neubauer, Vera, Gande, Nina, Winkler, Ira, Posod, Anna, Schreiner, Christina, Hammerl, Marlene, Kiechl‐Kohlendorfer, Ursula, and Griesmaier, Elke

Subjects

*CYTOMEGALOVIRUS diseases, *PREMATURE infants, *BIRTH weight, *GESTATIONAL age, *INFANTS

Abstract

Aim Methods Results Conclusion Controversy prevails about whether postnatal cytomegalovirus (CMV) infections are associated with adverse neurodevelopmental outcomes. We aimed to investigate whether amplitude‐integrated electroencephalography (aEEG) signals and General Movement Assessment (GMA) scores differed in very preterm infants with postnatal CMV infections.This was a retrospective single‐centre study, conducted at Innsbruck Medical University Hospital, Austria, between February 2011 and November 2018. We screened 461 infants born before 32 weeks of gestation for CMV infections. Their aEEG signals were analysed for the distribution of background activity patterns and their total maturation scores and component scores. The GMA was performed at 36 weeks of postmenstrual age, term‐equivalent age and 3 months of corrected age.We studied 20 infants (55% male) with postnatal CMV infections, born at a mean gestational age of 28.1 (25.3–30.7) weeks and a mean birth weight of 1064 (640–1600) grams. No differences were found in the aEEG signals or GMA scores between these infants and 441 uninfected controls.Preterm infants with postnatal CMV infections showed no alterations in neonatal aEEG signals or GMA scores, compared with the uninfected controls. Longer follow‐up studies are needed to evaluate the effect of postnatal cytomegalovirus infections on later neurodevelopmental outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

42. Generalizable Links Between Borderline Personality Traits and Functional Connectivity.

Author

Shafiei, Golia, Keller, Arielle S., Bertolero, Maxwell, Shanmugan, Sheila, Bassett, Dani S., Chen, Andrew A., Covitz, Sydney, Houghton, Audrey, Luo, Audrey, Mehta, Kahini, Salo, Taylor, Shinohara, Russell T., Fair, Damien, Hallquist, Michael N., and Satterthwaite, Theodore D.

Subjects

*FUNCTIONAL magnetic resonance imaging, *LARGE-scale brain networks, *FUNCTIONAL connectivity, *BORDERLINE personality disorder, *YOUNG adults, *PERSONALITY, *ADOLESCENCE

Abstract

Symptoms of borderline personality disorder (BPD) often manifest during adolescence, but the underlying relationship between these debilitating symptoms and the development of functional brain networks is not well understood. Here, we aimed to investigate how multivariate patterns of functional connectivity are associated with borderline personality traits in large samples of young adults and adolescents. We used functional magnetic resonance imaging data from young adults and adolescents from the HCP-YA (Human Connectome Project Young Adult) (n = 870, ages 22–37 years, 457 female) and the HCP-D (Human Connectome Project Development) (n = 223, ages 16–21 years, 121 female). A previously validated BPD proxy score was derived from the NEO Five-Factor Inventory. A ridge regression model with cross-validation and nested hyperparameter tuning was trained and tested in HCP-YA to predict BPD scores in unseen data from regional functional connectivity. The trained model was further tested on data from HCP-D without further tuning. Finally, we tested how the connectivity patterns associated with BPD aligned with age-related changes in connectivity. Multivariate functional connectivity patterns significantly predicted out-of-sample BPD scores in unseen data in young adults (HCP-YA p perm u ted =.001) and older adolescents (HCP-D p perm ut ed =.001). Regional predictive capacity was heterogeneous; the most predictive regions were found in functional systems relevant for emotion regulation and executive function, including the ventral attention network. Finally, regional functional connectivity patterns that predicted BPD scores aligned with those associated with development in youth. Individual differences in functional connectivity in developmentally sensitive regions are associated with borderline personality traits. [ABSTRACT FROM AUTHOR]

Published

2024

43. Effect of nanoplastic intake on the dopamine system during the development of male mice.

Author

Kim, Na-Hyun, Choo, Hye-In, and Lee, Young-A

Subjects

*NEURAL circuitry, *NUCLEUS accumbens, *PREFRONTAL cortex, *ENVIRONMENTAL exposure, *COGNITIVE ability, *DOPAMINE receptors

Abstract

[Display omitted] • Social behavior is altered by nanoplastic (NPx) administration. • NPx-induced alteration of social behavior is partly dependent on neurodevelopment. • NPx administration affects the neural circuit where the dopamine system innervates. • NPx-induced alteration of neural activity depends on neurodevelopment. • Therefore, NPx induces different effects at different developmental stages. Exposure to environmental microplastics has been demonstrated to impact health. However, its effect on development remains unclear. This study investigated whether consumption of nanoplastics (NPx) during development affects social and cognitive functions in rodents. In this study, we utilized male Institute of Cancer Research mice; they were divided into five subgroups based on the duration of NPx administration. NPx (100 nm) was orally administered via gavage for 6 days from gestational day (GTD) 7, representing the mid-gestation period, and for 5–6 days from GTD13 to birth, representing the late-gestation period; the male offspring were used for experiments. NPx was orally administered for 15 days starting at postnatal day (PND) 21 as the juvenile, PND38 as the adolescent, and PND56 as adulthood. On PND77, offspring were assessed for locomotion, social behavior, and nest-building tests. We observed that NPx administration altered dopamine system responses in GTD13 and PND56 groups. Social behavior was similarly affected by NPx treatment, with GTD13 and PND56 groups displaying decreased familiarity. Additionally, NPx treatment enhanced local field potentials in the prefrontal cortex, nucleus accumbens, and amygdala of GTD7 group and in the striatum of GTD13 group, while amphetamine treatment induced changes of local field potentials compared to saline treatment in the prefrontal cortex and the ventral tegmental area of CTR, GTD7, PND21, and PND56 groups. Taken together, these results showed that NPx treatment induced changes in social behavior partly depending on developmental stage, and these changes are associated with neural circuits innervated by the dopamine system. [ABSTRACT FROM AUTHOR]

Published

2024

44. Dual role for pannexin 1 at synapses: regulating functional and morphological plasticity.

Author

Casillas Martinez, Adriana, Wicki‐Stordeur, Leigh E., Ariano, Annika V., and Swayne, Leigh Anne

Subjects

*DENDRITIC spines, *CENTRAL nervous system, *NEUROLOGICAL disorders, *NEUROPLASTICITY, *SCAFFOLD proteins

Abstract

Pannexin 1 (PANX1) is an ion and metabolite membrane channel and scaffold protein enriched in synaptic compartments of neurons in the central nervous system. In addition to a well‐established link between PANX1 and synaptic plasticity, we recently identified a role for PANX1 in the regulation of dendritic spine stability. Notably, PANX1 and its interacting proteins are linked to neurological conditions involving dendritic spine loss. Understanding the dual role of PANX1 in synaptic function and morphology may help to shed light on these links. We explore potential mechanisms, including PANX1's interactions with postsynaptic receptors and cytoskeleton regulating proteins. Finally, we contextualize PANX1's dual role within neurological diseases involving dendritic spine and synapse dysfunction. [ABSTRACT FROM AUTHOR]

Published

2024

45. Association of Postnatal Opioid Exposure and 2-Year Neurodevelopmental Outcomes in Infants Undergoing Cardiac Surgery.

Author

O'Byrne, Michael L., Baxelbaum, Keith, Tam, Vicky, Griffis, Heather, Pennington, Maryjane L., Hagerty, Alyssa, Naim, Maryam Y., Nicolson, Susan C., Shillingford, Amanda J., Sutherland, Tori N., Hampton, Lyla E., Gebregiorgis, Nebiat G., Nguyen, Thuyvi, Ramos, Elizabeth, and Rossano, Joseph W.

Subjects

*MEDICAL care, *CARDIAC intensive care, *LENGTH of stay in hospitals, *CONGENITAL heart disease, *CARDIAC surgery, *NEURODEVELOPMENTAL treatment for infants

Abstract

Opioids are commonly used to provide analgesia during and after congenital heart surgery. The effects of exposure to opioids on neurodevelopment in neonates and infants are not well understood. This study sought to evaluate the associations between cumulative opioid exposure (measured in morphine mg equivalent) over the first year of life and 2-year neurodevelopmental outcomes (Bayley Scales of Infant and Toddler Development-Third/Fourth Edition [Bayley-III/IV] cognitive, language, and motor scores). A single-center retrospective cohort study of infants undergoing congenital heart surgery was performed. Adjustment for measurable confounders was performed through multivariable linear regression. A total of 526 subjects were studied, of whom 32% underwent Society for Thoracic Surgeons-European Association for Cardio-Thoracic Surgery category 4 or 5 operations. In unadjusted analyses, higher total exposure to opioids was associated with worse scores across all 3 Bayley-III/IV domain scores (all P < 0.05). After adjustment for measured confounders, greater opioid exposure was associated with lower Bayley-III/IV scores (cognitive: β = −1.0 per log-transformed morphine mg equivalents, P = 0.04; language: β = −1.2, P = 0.04; and motor: β = −1.1, P = 0.02). Total hospital length of stay, prematurity, genetic syndromes, and worse neighborhood socioeconomic status (represented either by Social Vulnerability Index or Childhood Opportunity Index) were all associated with worse Bayley-III/IV scores across all domains (all P < 0.05). Greater postnatal exposure to opioids was associated with worse neurodevelopmental outcomes across cognitive, language, and motor domains, independent of other less modifiable factors. This finding should motivate research and efforts to explore reduction in opioid exposure while preserving quality cardiac intensive care. [ABSTRACT FROM AUTHOR]

Published

2024

46. Pre-natal and early life lead exposure and childhood inhibitory control: an item response theory approach to improve measurement precision of inhibitory control.

Author

Liu, Shelley H., Chen, Yitong, Bellinger, David, de Water, Erik, Horton, Megan, Téllez-Rojo, Martha M., and Wright, Robert

Subjects

*LEAD exposure, *ITEM response theory, *RESPONSE inhibition, *CORD blood, *EXECUTIVE function

Abstract

Background: Neurodevelopmental performance tasks are often separately analyzed, even when they tap into a similar construct. This may yield mixed findings for associations of an exposure-neurobehavioral outcome. We develop an item response theory (IRT) approach to integrate multiple task variables together to improve measurement precision of the underlying construct. We apply this approach to create an integrative measure of childhood inhibitory control, and study impacts of pre/post-natal lead exposure. Methods: Using data from a prospective cohort based in Mexico (N = 533), we created an inhibitory control scale that integrates accuracy and reaction time information from four inhibitory control tasks (Go/NoGo Letter, Go/NoGo Neutral, Go/NoGo Happy, Delis-Kaplan Executive Function System (D-KEFS) Color-Word Interference Test, Condition 3). Using a generalized partial credit item response theory model, we estimated an inhibitory control index for each participant. We then assessed adjusted associations between umbilical cord blood and 4-year lead and childhood inhibitory control. We developed a resampling approach to incorporate error estimates from the inhibitory control variable to confirm the consistency of the lead-inhibitory control associations. We modeled time-varying associations of lead with each inhibitory control measure separately. Results: Participants had a median age of 9 years; 51.4% were males. Umbilical cord blood [-0.06 (95% CI: -0.11, -0.01)] and 4-year lead [-0.07 (95% CI: -0.12, -0.02)] were associated with inhibitory control index at 8–10 years. A resampling approach confirmed that 4-year lead was consistently associated with childhood inhibitory control index. Umbilical cord blood and 4-year lead were each associated with 3 out of 8 measures in separate models. Conclusion: This is the first application of IRT in environmental epidemiology to create a latent variable for inhibitory control that integrates accuracy and reaction time information from multiple, related tasks. This framework can be applied to other correlated neurobehavioral assessments or other phenotype data. Key messages: We are among the first to use item response theory to create an integrative measure of childhood inhibitory control, using multiple performance-tasks to improve measurement precision and construct validity. We combined information about speed and accuracy on each inhibitory control performance-task using theory driven considerations. We developed a resampling approach using plausible value imputation to account for measurement error of inhibitory control factor scores in estimating associations between lead exposures and inhibitory control. Higher lead exposure at birth, and during preschool age, were both associated with worse childhood inhibitory control. In boys, lead exposure at birth was associated with worse childhood inhibitory control, while in girls, lead exposure during preschool age was associated with worse childhood inhibitory control. [ABSTRACT FROM AUTHOR]

Published

2024

47. Pre-natal and early life lead exposure and childhood inhibitory control: an item response theory approach to improve measurement precision of inhibitory control.

Author

Liu, Shelley H., Chen, Yitong, Bellinger, David, de Water, Erik, Horton, Megan, Téllez-Rojo, Martha M., and Wright, Robert

Subjects

*LEAD exposure, *ITEM response theory, *RESPONSE inhibition, *CORD blood, *EXECUTIVE function

Abstract

Background: Neurodevelopmental performance tasks are often separately analyzed, even when they tap into a similar construct. This may yield mixed findings for associations of an exposure-neurobehavioral outcome. We develop an item response theory (IRT) approach to integrate multiple task variables together to improve measurement precision of the underlying construct. We apply this approach to create an integrative measure of childhood inhibitory control, and study impacts of pre/post-natal lead exposure. Methods: Using data from a prospective cohort based in Mexico (N = 533), we created an inhibitory control scale that integrates accuracy and reaction time information from four inhibitory control tasks (Go/NoGo Letter, Go/NoGo Neutral, Go/NoGo Happy, Delis-Kaplan Executive Function System (D-KEFS) Color-Word Interference Test, Condition 3). Using a generalized partial credit item response theory model, we estimated an inhibitory control index for each participant. We then assessed adjusted associations between umbilical cord blood and 4-year lead and childhood inhibitory control. We developed a resampling approach to incorporate error estimates from the inhibitory control variable to confirm the consistency of the lead-inhibitory control associations. We modeled time-varying associations of lead with each inhibitory control measure separately. Results: Participants had a median age of 9 years; 51.4% were males. Umbilical cord blood [-0.06 (95% CI: -0.11, -0.01)] and 4-year lead [-0.07 (95% CI: -0.12, -0.02)] were associated with inhibitory control index at 8–10 years. A resampling approach confirmed that 4-year lead was consistently associated with childhood inhibitory control index. Umbilical cord blood and 4-year lead were each associated with 3 out of 8 measures in separate models. Conclusion: This is the first application of IRT in environmental epidemiology to create a latent variable for inhibitory control that integrates accuracy and reaction time information from multiple, related tasks. This framework can be applied to other correlated neurobehavioral assessments or other phenotype data. Key messages: We are among the first to use item response theory to create an integrative measure of childhood inhibitory control, using multiple performance-tasks to improve measurement precision and construct validity. We combined information about speed and accuracy on each inhibitory control performance-task using theory driven considerations. We developed a resampling approach using plausible value imputation to account for measurement error of inhibitory control factor scores in estimating associations between lead exposures and inhibitory control. Higher lead exposure at birth, and during preschool age, were both associated with worse childhood inhibitory control. In boys, lead exposure at birth was associated with worse childhood inhibitory control, while in girls, lead exposure during preschool age was associated with worse childhood inhibitory control. [ABSTRACT FROM AUTHOR]

Published

2024

48. Mitochondrial dysfunction and increased reactive oxygen species production in MECP2 mutant astrocytes and their impact on neurons.

Author

Tomasello, Danielle L., Barrasa, M. Inmaculada, Mankus, David, Alarcon, Katia I., Lytton-Jean, Abigail K. R., Liu, X. Shawn, and Jaenisch, Rudolf

Subjects

*REACTIVE oxygen species, *HUMAN embryonic stem cells, *KREBS cycle, *ASTROCYTES, *MITOCHONDRIA

Abstract

Studies on MECP2 function and its implications in Rett Syndrome (RTT) have traditionally centered on neurons. Here, using human embryonic stem cell (hESC) lines, we modeled MECP2 loss-of-function to explore its effects on astrocyte (AST) development and dysfunction in the brain. Ultrastructural analysis of RTT hESC-derived cerebral organoids revealed significantly smaller mitochondria compared to controls (CTRs), particularly pronounced in glia versus neurons. Employing a multiomics approach, we observed increased gene expression and accessibility of a subset of nuclear-encoded mitochondrial genes upon mutation of MECP2 in ASTs compared to neurons. Analysis of hESC-derived ASTs showed reduced mitochondrial respiration and altered key proteins in the tricarboxylic acid cycle and electron transport chain in RTT versus CTRs. Additionally, RTT ASTs exhibited increased cytosolic amino acids under basal conditions, which were depleted upon increased energy demands. Notably, mitochondria isolated from RTT ASTs exhibited increased reactive oxygen species and influenced neuronal activity when transferred to cortical neurons. These findings underscore MECP2 mutation's differential impact on mitochondrial and metabolic pathways in ASTs versus neurons, suggesting that dysfunctional AST mitochondria may contribute to RTT pathophysiology by affecting neuronal health. [ABSTRACT FROM AUTHOR]

Published

2024

49. 538 例产妇产后12 个月抑郁状况与 婴儿健康的相关性.

Author

戚芳, 盛佳, 林启萍, and 周敏俊

Abstract

Objective To investigate the depression level of postpartum women at the 12th month and its correlation with infant health status. Methods Selecting mothers and infants who underwent prenatal examinations and successfully gave birth at Obstetrics and Gynecology Hospital, Fudan University from Dec 1, 2020 to Feb 28, 2021 as the research subjects. The Chinese version of the Edinburgh Postpartum Depression Scale (EPDS) was used to evaluate the depression level of postpartum women at the 12th month. A general information questionnaire was conducted to investigate the length, weight, feeding method, medical treatment for any reason, and sleep duration of infants at the age of 12 months. The neurodevelopmental assessment form for infants aged 11-15 months was used to assess their neurodevelopmental status at the age of 12 months. Results Among the 538 postpartum women, 55 cases had an EPDS score≥9, and the rate of postpartum depression (PPD) was 10.223%. The depression level of postpartum women at the 12th month was negatively correlated with the duration of infant night sleep (P=0.019) and the total duration of sleep (P=0.017). It is negatively correlated with the fine motor development (P=0.036), social development (P=0.017) and total neurological development score of infants (P=0.047). There is no correlation with infant physical growth (length and weight), feeding methods, or medical treatment for various reasons. Conclusion PPD has a negative impact on the sleep duration, fine motor development, and social development of infant, affecting the baby’s neurological development. It is necessary to pay long-term attention to the mental health of the postpartum women in order to promote the healthy growth of the baby. [ABSTRACT FROM AUTHOR]

Published

2024

50. DDX3X syndrome: From clinical phenotypes to biological insights.

Author

von Mueffling, Alexa, Garcia‐Forn, Marta, and De Rubeis, Silvia

Subjects

*RNA helicase, *AUTISM spectrum disorders, *NEURONAL differentiation, *MOVEMENT disorders, *GENETIC translation, *RNA metabolism

Abstract

DDX3X syndrome is a neurodevelopmental disorder accounting for up to 3% of cases of intellectual disability (ID) and affecting primarily females. Individuals diagnosed with DDX3X syndrome can also present with behavioral challenges, motor delays and movement disorders, epilepsy, and congenital malformations. DDX3X syndrome is caused by mutations in the X‐linked gene DDX3X, which encodes a DEAD‐box RNA helicase with critical roles in RNA metabolism, including mRNA translation. Emerging discoveries from animal models are unveiling a fundamental role of DDX3X in neuronal differentiation and development, especially in the neocortex. Here, we review the current knowledge of genetic and neurobiological mechanisms underlying DDX3X syndrome and their relationship with clinical phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024