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1. A global multicohort study to map subcortical brain development and cognition in infancy and early childhood

Author

Alex, Ann M., Aguate, Fernando, Botteron, Kelly, Buss, Claudia, Chong, Yap-Seng, Dager, Stephen R., Donald, Kirsten A., Entringer, Sonja, Fair, Damien A., Fortier, Marielle V., Gaab, Nadine, Gilmore, John H., Girault, Jessica B., Graham, Alice M., Groenewold, Nynke A., Hazlett, Heather, Lin, Weili, Meaney, Michael J., Piven, Joseph, Qiu, Anqi, Rasmussen, Jerod M., Roos, Annerine, Schultz, Robert T., Skeide, Michael A., Stein, Dan J., Styner, Martin, Thompson, Paul M., Turesky, Ted K., Wadhwa, Pathik D., Zar, Heather J., Zöllei, Lilla, de los Campos, Gustavo, and Knickmeyer, Rebecca C.

Abstract

The human brain grows quickly during infancy and early childhood, but factors influencing brain maturation in this period remain poorly understood. To address this gap, we harmonized data from eight diverse cohorts, creating one of the largest pediatric neuroimaging datasets to date focused on birth to 6 years of age. We mapped the developmental trajectory of intracranial and subcortical volumes in ∼2,000 children and studied how sociodemographic factors and adverse birth outcomes influence brain structure and cognition. The amygdala was the first subcortical volume to mature, whereas the thalamus exhibited protracted development. Males had larger brain volumes than females, and children born preterm or with low birthweight showed catch-up growth with age. Socioeconomic factors exerted region- and time-specific effects. Regarding cognition, males scored lower than females; preterm birth affected all developmental areas tested, and socioeconomic factors affected visual reception and receptive language. Brain–cognition correlations revealed region-specific associations.

Published
2024
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3. Maternal Inflammation During Pregnancy and Offspring Brain Development: The Role of Mitochondria

Author

Gyllenhammer, Lauren E., Rasmussen, Jerod M., Bertele, Nina, Halbing, Amy, Entringer, Sonja, Wadhwa, Pathik D., and Buss, Claudia

Abstract

The association between maternal immune activation (MIA) during pregnancy and risk for offspring neuropsychiatric disorders has been increasingly recognized over the past several years. Among the mechanistic pathways that have been described through which maternal inflammation during pregnancy may affect fetal brain development, the role of mitochondria has received little attention. In this review, the role of mitochondria as a potential mediator of the association between MIA during pregnancy and offspring brain development and risk for psychiatric disorders will be proposed. As a basis for this postulation, convergent evidence is presented supporting the obligatory role of mitochondria in brain development, the role of mitochondria as mediators and initiators of inflammatory processes, and evidence of mitochondrial dysfunction in preclinical MIA exposure models and human neurodevelopmental disorders. Elucidating the role of mitochondria as a potential mediator of MIA-induced alterations in brain development and neurodevelopmental disease risk may not only provide new insight into the pathophysiology of mental health disorders that have their origins in exposure to infection/immune activation during pregnancy but also offer new therapeutic targets.

Published
2022
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7. Gestational and postnatal age associations for striatal tissue iron deposition in early infancy.

Author

Cabral, Laura, Calabro, Finnegan J., Rasmussen, Jerod, Foran, Will, Moore, Lucille A., Graham, Alice, O'Connor, Thomas G., Wadhwa, Pathik D., Entringer, Sonja, Fair, Damien, Buss, Claudia, Panigrahy, Ashok, and Luna, Beatriz

Abstract

Striatal development is crucial for later motor, cognitive, and reward behavior, but age-related change in striatal physiology during the neonatal period remains understudied. An MRI-based measure of tissue iron deposition, T2*, is a non-invasive way to probe striatal physiology neonatally, linked to dopaminergic processing and cognition in children and adults. Striatal subregions have distinct functions that may come online at different time periods in early life. To identify if there are critical periods before or after birth, we measured if striatal iron accrued with gestational age at birth [range= 34.57–41.85 weeks] or postnatal age at scan [range= 5–64 days], using MRI to probe the T2* signal in N = 83 neonates in three striatal subregions. We found iron increased with postnatal age in the pallidum and putamen but not the caudate. No significant relationship between iron and gestational age was observed. Using a subset of infants scanned at preschool age (N = 26), we show distributions of iron shift between time points. In infants, the pallidum had the least iron of the three regions but had the most by preschool age. Together, this provides evidence of distinct change for striatal subregions, a possible differentiation between motor and cognitive systems, identifying a mechanism that may impact future trajectories. • Neonatal striatal tissue iron can be measured using the T2 * signal from rsfMRI. • nT2 * changed with postnatal age in the pallidum and putamen but not in the caudate. • nT2 * did not change with gestational age in any of the three regions. • Patterns of iron deposition (nT2 *) among regions shift from infancy to preschool. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Maternal insulin resistance in pregnancy is associated with fetal fat deposition: findings from a longitudinal study.

Author

Ikenoue, Satoru, Waffarn, Feizal, Sumiyoshi, Kaeko, Ohashi, Masanao, Ikenoue, Chigusa, Tanaka, Mamoru, Gillen, Daniel L., Buss, Claudia, Entringer, Sonja, and Wadhwa, Pathik D.

Subjects
INSULIN resistance, FETAL ultrasonic imaging, WEIGHT gain, ADIPOSE tissues, BODY mass index
Abstract

Background: Newborns exhibit substantial variation in fat mass accretion over gestation. These individual differences in newborn adiposity extend into infancy and childhood and relate to subsequent risk of obesity and metabolic dysregulation. Maternal glucose homeostasis in pregnancy has been proposed as an underlying mechanism; however, the timing in gestation when maternal glucose regulation influences the progression of fetal fat deposition remain unclear.Objective: This study aimed to investigate the cross-sectional and longitudinal association of maternal insulin resistance in early, mid, and late pregnancy with fetal fat deposition in uncomplicated pregnancies. We hypothesized that maternal insulin resistance at early, mid, and late gestation is positively associated with fetal fat deposition, and that the magnitude of the association is greater for the mid and late gestation measures than for the early gestation measure.Study Design: In a longitudinal study of 137 low-risk pregnancies, a fasting maternal blood sample was obtained and fetal ultrasonography was performed at ≈ 12, 20, and 30 weeks' gestation. Maternal insulin resistance was quantified using the homeostasis model assessment of insulin resistance (fasting insulin×fasting glucose/405). Estimated fetal adiposity was calculated by integrating measurements of cross-sectional arm and thigh percentage fat area and anterior abdominal wall thickness. The associations between maternal homeostasis model assessment of insulin resistance and estimated fetal adiposity and estimated fetal weight were determined by multiple linear regression adjusted for potential confounding factors including maternal age, parity, race and ethnicity, prepregnancy body mass index, gestational weight gain per week, fetal sex, and gestational age at assessments.Results: Maternal homeostasis model assessment of insulin resistance at ≈ 12, 20, and 30 weeks was 2.79±1.79 (±standard deviation), 2.78±1.54, and 3.76±2.30, respectively. Homeostasis model assessment of insulin resistance at 20 weeks was positively associated with estimated fetal adiposity at 20 weeks (r=0.261; P=.005). Homeostasis model assessment of insulin resistance at 20 weeks (r=0.215; P=.011) and 30 weeks (r=0.285; P=.001) were also positively associated with estimated fetal adiposity at 30 weeks. These relationships remained significant after adjustment for confounding factors. There was no significant correlation between homeostasis model assessment of insulin resistance and estimated fetal weight at 20 and 30 weeks' gestation.Conclusion: In low-risk pregnancies, maternal insulin resistance at mid and late but not early pregnancy is significantly associated with fetal adiposity but not with fetal weight. Maternal insulin resistance in mid-gestation could provide a basis for risk identification and interventions that target child adiposity. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Implications of newborn amygdala connectivity for fear and cognitive development at 6-months-of-age.

Author

Graham, Alice M., Buss, Claudia, Rasmussen, Jerod M., Rudolph, Marc D., Demeter, Damion V., Gilmore, John H., Styner, Martin, Entringer, Sonja, Wadhwa, Pathik D., and Fair, Damien A.

Abstract

The first year of life is an important period for emergence of fear in humans. While animal models have revealed developmental changes in amygdala circuitry accompanying emerging fear, human neural systems involved in early fear development remain poorly understood. To increase understanding of the neural foundations of human fear, it is important to consider parallel cognitive development, which may modulate associations between typical development of early fear and subsequent risk for fear-related psychopathology. We, therefore, examined amygdala functional connectivity with rs-fcMRI in 48 neonates ( M = 3.65 weeks, SD = 1.72), and measured fear and cognitive development at 6-months-of-age. Stronger, positive neonatal amygdala connectivity to several regions, including bilateral anterior insula and ventral striatum, was prospectively associated with higher fear at 6-months. Stronger amygdala connectivity to ventral anterior cingulate/anterior medial prefrontal cortex predicted a specific phenotype of higher fear combined with more advanced cognitive development. Overall, findings demonstrate unique profiles of neonatal amygdala functional connectivity related to emerging fear and cognitive development, which may have implications for normative and pathological fear in later years. Consideration of infant fear in the context of cognitive development will likely contribute to a more nuanced understanding of fear, its neural bases, and its implications for future mental health. [ABSTRACT FROM AUTHOR]

Published
2016
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12. Maternal social support predicts birth weight and fetal growth in human pregnancy.

Author

Feldman, Pamela J., Dunkel-Schetter, Christine, Sandman, Curt A., Wadhwa, Pathik D., Feldman, P J, Dunkel-Schetter, C, Sandman, C A, and Wadhwa, P D

Abstract

Objective: Low birth weight is a primary cause of infant mortality and morbidity. Results of previous studies suggest that social support may be related to higher birth weight through fetal growth processes, although the findings have been inconsistent. The purpose of this investigation was to test a model of the association between a latent prenatal social support factor and fetal growth while taking into account relations between sociodemographic and obstetric risk factors and birth weight.Method: A prospective study was conducted among 247 women with a singleton, intrauterine pregnancy receiving care in two university-affiliated prenatal clinics. Measures of support included support from family, support from the baby's father, and general functional support. Sociodemographic characteristics were also assessed. Birth outcome and obstetric risk information were abstracted from patients' medical charts after delivery.Results: Structural equation modeling analyses showed that a latent social support factor significantly predicted fetal growth (birth weight adjusted for length of gestation) with infant sex, obstetric risk, and ethnicity in the model. Marital status and education were indirectly related to fetal growth through social support. The final model with social support and other variables accounted for 31% of the variance in fetal growth.Conclusions: These findings suggest that prenatal social support is associated with infant birth weight through processes involving fetal growth rather than those involving timing of delivery. Biological and behavioral factors may contribute to the association between support and fetal growth, although these mechanisms need to be further explored. These results pave the way for additional research on fetal growth mechanisms and provide a basis for support intervention research. [ABSTRACT FROM AUTHOR]

Published
2000
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13. Association between supraclavicular brown adipose tissue composition at birth and adiposity gain from birth to 6 months of age

Author

Entringer, Sonja, Rasmussen, Jerod, Cooper, Dan M, Ikenoue, Satoru, Waffarn, Feizal, Wadhwa, Pathik D, and Buss, Claudia

Abstract

BackgroundBrown adipose tissue (BAT) is associated with higher energy expenditure and lower adiposity in adults. However, the relationship between BAT composition and adiposity in early life is unknown. The objective of this study was to test the hypothesis that brown fat composition at birth is prospectively associated with adiposity gain during the first 6 months of postnatal life.MethodsN=35 healthy infants were followed up prospectively from intrauterine life and birth through 6 months of age. Dixon magnetic resonance imaging (MRI) scans were conducted during the neonatal period to characterize supraclavicular BAT composition. Dual-energy X-ray absorptiometry to assess total body composition was performed within the first and sixth months of life.ResultsAfter adjusting for potential confounding factors, a more brown-like composition (smaller fat fraction) of the supraclavicular BAT depot was associated with a smaller increase in percent body fat over the first 6 months of postnatal life.ConclusionsA more brown-like BAT composition at birth appears to be protective against excess adiposity gain in early life. Newborn BAT tissue may constitute a target for prevention strategies against the subsequent development of obesity.

Published
2017
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14. Newborn insula gray matter volume is prospectively associated with early life adiposity gain

Author

Rasmussen, J M, Entringer, S, Kruggel, F, Cooper, D M, Styner, M, Gilmore, J H, Potkin, S G, Wadhwa, P D, and Buss, C

Abstract

Background:The importance of energy homeostasis brain circuitry in the context of obesity is well established, however, the developmental ontogeny of this circuitry in humans is currently unknown. Here, we investigate the prospective association between newborn gray matter (GM) volume in the insula, a key brain region underlying energy homeostasis, and change in percent body fat accrual over the first six months of postnatal life, an outcome that represents among the most reliable infant predictors of childhood obesity risk.Methods:A total of 52 infants (29 male, 23 female, gestational age at birth=39(1.5) weeks) were assessed using structural MRI shortly after birth (postnatal age at MRI scan=25.9(12.2) days), and serial Dual X-Ray Absorptiometry shortly after birth (postnatal age at DXA scan 1=24.6(11.4) days) and at six months of age (postnatal age at DXA scan 2=26.7(3.3) weeks).Results:Insula GM volume was inversely associated with change in percent body fat from birth to six-months postnatal age and accounted for 19% of its variance (β=−3.6%/S.D., P=0.001). This association was driven by the central-posterior portion of the insula, a region of particular importance for gustation and interoception. The direction of this effect is in concordance with observations in adults, and the results remained statistically significant after adjusting for relevant covariates and potential confounding variables.Conclusions:Altogether, these findings suggest an underlying neural basis of childhood obesity that precedes the influence of the postnatal environment. The identification of plausible brain-related biomarkers of childhood obesity risk that predate the influence of the postnatal obesogenic environment may contribute to an improved understanding of propensity for obesity, early identification of at-risk individuals, and intervention targets for primary prevention.

Published
2017
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15. Maternal Cortisol During Pregnancy and Infant Adiposity: A Prospective Investigation.

Author

Entringer, Sonja, Buss, Claudia, Rasmussen, Jerod M, Lindsay, Karen, Gillen, Daniel L, Cooper, Dan M, and Wadhwa, Pathik D

Abstract

Glucocorticoids play a key role during intrauterine development in cellular growth and differentiation. Evidence suggests that exposure to inappropriate concentrations of glucocorticoids during sensitive developmental periods may produce alterations in physiological systems that impact obesity risk.

Published
2017
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17. Association of maternal prepregnancy BMI with metabolomic profile across gestation

Author

Hellmuth, C, Lindsay, K L, Uhl, O, Buss, C, Wadhwa, P D, Koletzko, B, and Entringer, S

Abstract

Background/Objectives:Elevated prepregnancy body mass index (pBMI) and excess gestational weight gain (GWG) constitute important prenatal exposures that may program adiposity and disease risk in offspring. The objective of this study is to investigate the influence of pBMI and GWG on the maternal metabolomic profile across pregnancy, and to identify associations with birth weight.Subjects/Methods:This is a longitudinal prospective study of 167 nondiabetic women carrying a singleton pregnancy. Women were recruited between March 2011 and December 2013 from antenatal clinics affiliated to the University of California, Irvine, Medical Center. Seven women were excluded from analyses because of a diagnosis of diabetes during pregnancy. A total of 254 plasma metabolites known to be related to obesity in nonpregnant populations were analyzed in each trimester using targeted metabolomics. The effects of pBMI and GWG on metabolites were tested through linear regression and principle component analysis, adjusting for maternal sociodemographic factors, diet, and insulin resistance. A Bonferroni correction was applied for multiple comparison testing.Results:pBMI was significantly associated with 40 metabolites. Nonesterified fatty acids (NEFA) showed a strong positive association with pBMI, with specificity for mono-unsaturated and omega-6 NEFA. Among phospholipids, sphingomyelins with two double bonds and phosphatidylcholines containing 20:3 fatty acid chain, indicative of omega-6 NEFA, were positively associated with pBMI. Few associations between GWG, quality and quantity of the diet, insulin resistance and the maternal metabolome throughout gestation were detected. NEFA levels in the first and, to a lesser degree, in the second trimester were positively associated with birth weight percentiles.Conclusions:Preconception obesity appears to have a stronger influence on the maternal metabolic milieu than gestational factors such as weight gain, dietary intake and insulin resistance, highlighting the critical importance of preconception health. NEFA in general, as well as monounsaturated and omega-6 fatty acid species in particular, represent key metabolites for a potential mechanism of intergenerational transfer of obesity risk.

Published
2017
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18. Sleep across the first year of life is prospectively associated with brain volume in 12-months old infants

Author

Pittner, Katharina, Rasmussen, Jerod, Lim, Miranda M., Gilmore, John H., Styner, Martin, Entringer, Sonja, Wadhwa, Pathik D., and Buss, Claudia

Abstract

Longer sleep duration in infancy supports cognitive and affective functioning – likely through effects on brain development. From childhood through old age, there is evidence for a close link between sleep and brain volume. However, little is known about the association between sleep duration and brain volume in infancy, a developmental period of unprecedented brain maturation. This study aimed to close this gap by assessing sleep duration across the first year of life and gray and white matter volume at 12-mo age.

Published
2023
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19. Maternal corticotropin-releasing hormone levels in the early third trimester predict length of gestation in human pregnancy.

Author

Wadhwa, Pathik D., Porto, Manuel, Wadhwa, P D, Porto, M, Garite, T J, Chicz-DeMet, A, and Sandman, C A

Subjects
BLOOD plasma, PREGNANCY, CORTICOTROPIN releasing hormone
Abstract

Objective: Corticotropin releasing hormone, a hypothalamic neuropeptide, plays a major role in regulating pituitary-adrenal function and the physiologic response to stress. During pregnancy corticotropin-releasing hormone is synthesized in large amounts by the placenta and released into the maternal and fetal circulations. Various endocrine, autocrine, and paracrine roles have been suggested for placental corticotropin-releasing hormone. The aim of this study was to prospectively assess the relationship between maternal plasma concentrations of corticotropin-releasing hormone in the early third trimester of pregnancy and the length of gestation in two groups of deliveries, with and without spontaneous labor.Study Design: In a sample of 63 women with singleton intrauterine pregnancies, maternal plasma samples were collected between 28 and 30 weeks' gestation and corticotropin-releasing hormone concentrations were determined by radioimmunoassay. Each pregnancy was dated on the basis of last menstrual period and early ultrasonography. Parity, antepartum risk conditions, presence or absence of spontaneous labor, and birth outcomes were abstracted from the medical record.Results: Maternal corticotropin-releasing hormone levels between 28 and 30 weeks' gestation significantly and negatively predicted gestational length (P < .01) after adjustment for antepartum risk. Moreover, subjects who were delivered preterm had significantly higher corticotropin-releasing hormone levels in the early third trimester (P < .01) than did those who were delivered at term. In deliveries preceded by spontaneous onset of labor, maternal third-trimester corticotropin-releasing hormone levels significantly and independently predicted earlier onset of labor (P < .01) and preterm labor (P < .05), whereas in deliveries effected by induction of labor or cesarean delivery, maternal corticotropin-releasing hormone levels were a marker of antepartum risk but not a statistically independent predictor of gestational length.Conclusion: These findings support the premise that placental corticotropin-releasing hormone is potentially implicated in the timing of human delivery in at least two ways. First, placental corticotropin-releasing hormone may play a role in the physiology of parturition. Premature or accelerated activation of the placental corticotropin-releasing hormone system, as reflected by precocious elevation of maternal corticotropin-releasing hormone levels, may therefore be associated with earlier onset of spontaneous labor and resultant delivery. Second, placental corticotropin-releasing hormone may be a marker of antepartum risk for preterm delivery and therefore an indirect predictor of earlier delivery. The implications of these findings are discussed in the context of the neuroendocrinology of placental corticotropin-releasing hormone and human parturition. Furthermore, the role of corticotropin-releasing hormone as a possible effector of prenatal stress in producing alterations in the timing of normal delivery is detailed. [ABSTRACT FROM AUTHOR]

Published
1998
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21. Placental corticotropin-releasing hormone (CRH), spontaneous preterm birth, and fetal growth restriction: A prospective investigation.

Author

Wadhwa, Pathik D., Thomas J. Garite, Porto, Manuel, Glynn, Laura, Chicz-DeMet, Aleksandra, Dunkel-Schetter, Christine, and Sandman, Curt A.

Subjects
CORTICOTROPIN releasing hormone, NEUROPEPTIDES, PITUITARY hormone releasing factors, PREMATURE infants, FETAL development, PREGNANCY, OBSTETRICS, GYNECOLOGY
Abstract

Objectives: Recent advances in the physiology of human pregnancy have implicated placental corticotropin-releasing hormone (CRH) as one of the primary endocrine mediators of parturition and possibly also of fetal development. The aim of this study was (1) to prospectively assess the relationship of maternal plasma concentrations of CRH in the early third trimester of gestation with two prematurity-related outcomes-spontaneous preterm birth (PTB), and small-forgestational age birth (SGA), and (2) to determine whether the effects of CRH on each of these outcomes are independent from those of other established obstetric risk factors. Study design: In a sample of 232 women with a singleton, intrauterine pregnancy, maternal plasma was collected at 33 weeks' gestation and CRH concentrations were determined by radioimmunoassay. Each pregnancy was dated on the basis of last menstrual period and early ultrasonography. Parity, obstetric risk conditions for prematurity, mode of delivery, and birth outcomes were abstracted from the medical record. Results: After adjusting for the effects of established obstetric risk factors, elevated CRH levels at 33 weeks' gestation were significantly associated with a 3.3-fold increase in the adjusted relative risk (RR) for spontaneous preterm birth and with a 3.6-fold increase in the adjusted relative risk for fetal growth restriction. Women who delivered postterm had significantly lower CRH levels in the early third trimester than those who delivered at term. When outcomes were stratified by gestational length and birth weight, the lowest CRH levels at 33 weeks' gestation were associated with the term non-SGA births, intermediate and approximately equal CRH levels were associated with the preterm non-SGA and term SGA births, and the highest CRH levels were associated with the preterm SGA births. Conclusion: For deliveries occurring after 33 weeks' gestation (the time of CRH sampling in this study), our findings support the notion that in humans placental CRH may play an impending, direct role in not only the physiology of parturition but also in processes related to fetal growth and maturation. Our results also support the notion that the timing of onset of parturition may be dtermined or influenced by eents occurring earlier in gestation rather than those close to the time of actual onset of labor (i.e, the notion of a"placental clock"). [ABSTRACT FROM AUTHOR]

Published
2004
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22. When stress happens matters: Effect of earthquake timing on stress responsivity in pregnancy.

Author

Glynn, Laura M., Wadhwa, Pathik D., Dunkel-Schetter, Christine, Chicz-DeMet, Aleksandra, and Sandman, Curt A.

Subjects
PSYCHOLOGICAL stress, HYPOTHALAMIC-pituitary-adrenal axis
Abstract

Evaluates the effects of earthquake timing on stress during pregnancy. Involvement of the hypothalamic-pituitary-adrenal axes during a maternal stress response; Correlation between pregnancy and decreased vascular response to norepinephrine and epinephrine infusion.

Published
2001
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23. Ecological Momentary Assessment of Maternal Cortisol Profiles Over a Multiple-Day Period Predicts the Length of Human Gestation

Author

Entringer, Sonja, Buss, Claudia, Andersen, Judith, Chicz-DeMet, Aleksandra, and Wadhwa, Pathik D.

Abstract

Biobehavioral models of prenatal stress highlight the importance of the stress-related hormone cortisol. However, the association between maternal cortisol levels and the length of human gestation requires further investigation because most previous studies have relied on one-time cortisol measures assessed at varying gestational ages. This study assessed whether ecological momentary assessment (EMA) of cortisol sampling improves the ability to predict the length of human gestation. In addition, associations between EMA-based measures of psychological state (negative affect) with cortisol levels during pregnancy were assessed.

Published
2011
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24. Corticotropin releasing hormone (CRH) gene variation: Comprehensive resequencing for variant and molecular haplotype discovery in monosomic hybrid cell lines

Author

Shimmin, Lawrence C., Natarajan, Sivamani, Ibarguen, Heladio, Montasser, May, Kim, Do-Kyun, Hanis, Craig L., Boerwinkle, Eric, Wadhwa, Pathik D., and Hixson, James E.

Abstract

Candidate gene association studies have met with mixed success due to many reasons including incomplete surveys of genetic variation and differences in patterns of genetic variation among study populations. We present the results of comprehensive variant discovery for the corticotropin releasing hormone gene (CRH on chromosome 8) encoding a neuropeptide that is central to many physiologic pathways. Mouse-human hybrid cell lines were constructed that are monosomic for human chromosome 8 for resequencing of separated CRH alleles to identify variants and directly determine their chromosomal phase for three major ethnic groups including African Americans (AA), Mexican Americans (MA) and European Americans (EA). We also resequenced diploid individuals to evaluate single nucleotide polymorphism (SNP) discovery in the limited numbers of monosomic hybrid cell lines. Our results show that CRH variation is very different in AA, yielding larger numbers of variants and haplotypes compared to MA and EA. Analysis of LD structure found three haplotype blocks in AA and two blocks in EA. Comparisons between AA and EA groups yielded extremely high measures of genetic differentiation (Wright's FST>0.6), likely reflecting disruptive selection in CRH evolution. Network analysis showed that AA have retained an ancestral CRH haplotype, while the most common EA haplotype is derived from a single recombination event.

Published
2007
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25. Infectious Complications of Chronic Lymphocytic Leukemia

Author

Wadhwa, Punit D. and Morrison, Vicki A.

Abstract

Infectious complications continue to be one of the major causes of morbidity and mortality in patients with chronic lymphocytic leukemia (CLL). The pathogenesis of infections in these patients is multifactorial. Hypogammaglobulinemia is an important predisposing factor for infection in patients with early-stage disease and for those treated with conventional alkylating agents. However, the proportion of patients treated with purine analogs and monoclonal antibodies such as rituximab and alemtuzumab is increasing. As a result of this therapy, these patients often experience profound and sustained T-cell immunodeficiency. Consequently, the spectrum of organisms causing infections in these patients is changing from common bacterial organisms to less common opportunistic pathogens such as Pneumocystis, Listeria, mycobacteria, herpesviruses, and Candida. This review focuses on the pathogenesis and risk factors for infections in patients with CLL, the spectrum of infectious organisms associated with the newer agents, and the management of these infections with an emphasis on prophylaxis and vaccination strategies.

Published
2006
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27. Ethnic differences in glaucoma prevalence, management, and outcome

Author

Wadhwa, Sonal D and Higginbotham, Eve J

Abstract

Glaucoma has a disproportionate prevalence among specific ethnic groups. Therefore, the issue of ‘race’ and glaucoma has been the focus of much discussion. The purpose of this article is to provide a review of the literature regarding the prevalence, management, and outcome of glaucoma among different ethnic populations.

Published
2005
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28. Women's Mental Health During Pregnancy Influences Fetal and Infant Developmental and Health Outcomes

Author

Federenko, Ilona S. and Wadhwa, Pathik D.

Abstract

ABSTRACTWomen's mental health during pregnancy has important implications not only for the well-being of the mother, but also for the development, health, and well-being of her unborn child. A growing body of empirical evidence from population-based studies suggests that two indicators of women's mental health during pregnancy—psychosocial stress and social support—may exert a significant influence on fetal development and infant birth outcomes, such as birth weight and length of gestation, even after controlling for the effects of established sociodemographic, obstetric, and behavioral risk factors. This paper describes the role of three major biological systems involved in the physiology of pregnancy and stress physiology: neuroendocrine, immune/inflammatory, and cardiovascular systems. These systems have been hypothesized to mediate the effects of maternal mental health on fetal developmental and health outcomes, and a central role has been proposed for placental corticotropin-releasing hormone in this process. However, not all women reporting high prenatal stress and/or low social support proceed to develop adverse birth outcomes, raising the question of the determinants of susceptibility/vulnerability in the context of high stress and/or low social support. In this context, the role of race/ethnicity and genetic predisposition are. discussed as two promising avenues of further investigation.

Published
2004
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29. Neonatal brain volume as a marker of differential susceptibility to parenting quality and its association with neurodevelopment across early childhood.

Author

Nolvi, Saara, Rasmussen, Jerod M., Graham, Alice M., Gilmore, John H., Styner, Martin, Fair, Damien A., Entringer, Sonja, Wadhwa, Pathik D., and Buss, Claudia

Abstract

• Brain volumes at birth interacted with maternal sensitivity to predict child cognitive performance. • Larger total brain volume was associated with greater child susceptibility to maternal sensitivity. • Larger hippocampus and anterior cingulate gyrus contributed to greater child susceptibility. • Neonatal neurophenotypes may underlie susceptibility to parenting. Parenting quality is associated with child cognitive and executive functions (EF), which are important predictors of social and academic development. However, children vary in their susceptibility to parenting behaviors, and the neurobiological underpinnings of this susceptibility are poorly understood. In a prospective longitudinal study, we examined whether neonatal total brain volume (TBV) and subregions of interest (i.e., hippocampus (HC) and anterior cingulate gyrus (ACG)) moderate the association between maternal sensitivity and cognitive/EF development across early childhood. Neonates underwent a brain magnetic resonance imaging scan. Their cognitive performance and EF was characterized at 2.0 ± 0.1 years (N = 53) and at 4.9 ± 0.8 years (N = 36) of age. Maternal sensitivity was coded based on observation of a standardized play situation at 6-mo postpartum. Neonatal TBV moderated the association between maternal sensitivity and 2-year working memory as well as all 5-year cognitive outcomes, suggesting that the positive association between maternal sensitivity and child cognition was observed only among children with large or average but not small TBV as neonates. Similar patterns were observed for TBV-corrected HC and ACG volumes. The findings suggest that larger neonatal TBV, HC and ACG may underlie susceptibility to the environment and affect the degree to which parenting quality shapes long-term cognitive development. [ABSTRACT FROM AUTHOR]

Published
2020
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30. Neonatal hippocampal volume moderates the effects of early postnatal enrichment on cognitive development.

Author

Overfeld, Judith, Entringer, Sonja, Rasmussen, Jerod M., Heim, Christine M., Styner, Martin A., Gilmore, John H., Wadhwa, Pathik D., and Buss, Claudia

Abstract

Environmental enrichment, particularly during the early life phases of enhanced neuroplasticity, can stimulate cognitive development. However, individuals exhibit considerable variation in their response to environmental enrichment. Recent evidence suggests that certain neurophenotypes such as hippocampal size may index inter-individual differences in sensitivity to environmental conditions. We conducted a prospective, longitudinal investigation in a cohort of 75 mother-child dyads to investigate whether neonatal hippocampal volume moderates the effects of the postnatal environment on cognitive development. Newborn hippocampal volume was quantified shortly after birth (26.2 ± 12.5 days) by structural MRI. Measures of infant environmental enrichment (assessed by the IT-HOME) and cognitive state (assessed by the Bayley-III) were obtained at 6 months of age (6.09 ± 1.43 months). The interaction between neonatal hippocampal volume and enrichment predicted infant cognitive development (b = 0.01, 95 % CI [0.00, 0.02], t = 2.08, p =.04), suggesting that exposure to a stimulating environment had a larger beneficial effect on cognitive outcomes among infants with a larger hippocampus as neonates. Our findings suggest that the effects of the postnatal environment on infant cognitive development are conditioned, in part, upon characteristics of the newborn brain, and that newborn hippocampal volume is a candidate neurophenotype in this context. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Boundary layer growth on a spinning body: accelerated motion

Author

Wadhwa, Y. D.

Abstract

The motion in the boundary layer when a body of revolution is started to move along its axis of symmetry and simultaneously to rotate about it with a velocity varying as the nth power of time, is investigated. The corresponding problem for an impulsive start was tackled by Illingworth. It is found that the separation is delayed by acceleration. Also, the time that elapses before separation first takes place is lessened by increasing the velocity of spin.

Published
1958
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34. Neuroanatomical Correlates Underlying the Association Between Maternal Interleukin 6 Concentration During Pregnancy and Offspring Fluid Reasoning Performance in Early Childhood

Author

Rasmussen, Jerod M., Graham, Alice M., Gyllenhammer, Lauren E., Entringer, Sonja, Chow, Daniel S., O’Connor, Thomas G., Fair, Damien A., Wadhwa, Pathik D., and Buss, Claudia

Abstract

Maternal inflammation during pregnancy can alter offspring brain development and influence risk for disorders commonly accompanied by deficits in cognitive functioning. We therefore examined associations between maternal interleukin 6 (IL-6) concentrations during pregnancy and offspring cognitive ability and concurrent magnetic resonance imaging–based measures of brain anatomy in early childhood. We further examined newborn brain anatomy in secondary analyses to consider whether effects are evident soon after birth and to increase capacity to differentiate effects of pre- versus postnatal exposures.

Published
2021
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35. Cervicovaginal Microbiome Composition Is Associated with Metabolic Profiles in Healthy Pregnancy

Author

Oliver, Andrew, LaMere, Brandon, Weihe, Claudia, Wandro, Stephen, Lindsay, Karen L., Wadhwa, Pathik D., Mills, David A., Pride, David T., Fiehn, Oliver, Northen, Trent, de Raad, Markus, Li, Huiying, Martiny, Jennifer B. H., Lynch, Susan, and Whiteson, Katrine

Abstract

Humans have a unique vaginal microbiome compared to other mammals, characterized by low diversity and often dominated by Lactobacillusspp. Dramatic shifts in vaginal microbial communities sometimes contribute to the presence of a polymicrobial overgrowth condition called bacterial vaginosis (BV). However, many healthy women lacking BV symptoms have vaginal microbiomes dominated by microbes associated with BV, resulting in debate about the definition of a healthy vaginal microbiome. Despite substantial evidence that the reproductive health of a woman depends on the vaginal microbiota, future therapies that may improve reproductive health outcomes are stalled due to limited understanding surrounding the ecology of the vaginal microbiome. Here, we use sequencing and metabolomic techniques to show novel associations between vaginal microbes and metabolites during healthy pregnancy. We speculate these associations underlie microbiome dynamics and may contribute to a better understanding of transitions between alternative vaginal microbiome compositions.

Published
2020
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36. Newborn amygdala connectivity and early emerging fear.

Author

Thomas, Elina, Buss, Claudia, Rasmussen, Jerod M., Entringer, Sonja, Ramirez, Julian S.B., Marr, Mollie, Rudolph, Marc D., Gilmore, John H., Styner, Martin, Wadhwa, Pathik D., Fair, Damien A., and Graham, Alice M.

Abstract

• Newborn Am-Ins connectivity predicts fear development from 6 to 24 months-of-age. • Newborn Am-vMPFC connectivity predicts sadness development from 6 to 24 months-of-age. • Distinct newborn amygdala connections support fear versus sadness development. Connectivity between the amygdala, insula (Amygdala-aI) and ventral medial prefrontal cortex (Amygdala-vmPFC) have been implicated in individual variability in fear and vulnerability to psychiatric disorders. However, it is currently unknown to what extent connectivity between these regions in the newborn period is relevant for the development of fear and other aspects of negative emotionality (NE), such as sadness. Here, we investigate newborn Am-Ins and Am-vmPFC resting state functional connectivity in relation to developmental trajectories of fear and sadness over the first two years of life using data from the Infant Behavior Questionnaire Revised (IBQ-R) and Early Childhood Behavior Questionnaire (ECBQ) (N=62). Stronger newborn amygdala connectivity predicts higher fear and sadness at 6-months-of-age and less change from 6 to 24-months-of-age. Interestingly, Am-Ins connectivity was specifically relevant for fear and not sadness, while Am-vmPFC was associated only with sadness. Associations remained consistent after considering variation in maternal sensitivity and maternal postnatal depressive symptomology. Already by the time of birth, individual differences in amygdala connectivity are relevant for the expression of fear over the first two-years-of-life. Additionally, specificity is observed, such that connections relevant for fear development are distinct from those predicting sadness trajectories. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Prospective association of fetal liver blood flow at 30 weeks gestation with newborn adiposity.

Author

Ikenoue, Satoru, Waffarn, Feizal, Ohashi, Masanao, Sumiyoshi, Kaeko, Ikenoue, Chigusa, Buss, Claudia, Gillen, Daniel L., Simhan, Hyagriv N., Entringer, Sonja, and Wadhwa, Pathik D.

Subjects
ADIPOSE tissues, FETAL abnormalities, THIRD trimester of pregnancy, FETAL ultrasonic imaging, BODY mass index, BLOOD circulation, HUMAN body composition, GESTATIONAL age, LIVER, LONGITUDINAL method, RESEARCH funding
Abstract

Background: The production of variation in adipose tissue accretion represents a key fetal adaptation to energy substrate availability during gestation. Because umbilical venous blood transports nutrient substrate from the maternal to the fetal compartment and because the fetal liver is the primary organ in which nutrient interconversion occurs, it has been proposed that variations in the relative distribution of umbilical venous blood flow shunting either through ductus venosus or perfusing the fetal liver represents a mechanism underlying this adaptation.Objective: The objective of the present study was to determine whether fetal liver blood flow assessed before the period of maximal fetal fat deposition (ie, the third trimester of gestation) is prospectively associated with newborn adiposity.Study Design: A prospective study was conducted in a cohort of 62 uncomplicated singleton pregnancies. Fetal ultrasonography was performed at 30 weeks gestation for conventional fetal biometry and characterization of fetal liver blood flow (quantified by subtracting ductus venosus flow from umbilical vein flow). Newborn body fat percentage was quantified by dual energy X-ray absorptiometry imaging at 25.8 ± 3.3 (mean ± standard error of the mean) postnatal days. Multiple regression analysis was used to determine the proportion of variation in newborn body fat percentage explained by fetal liver blood flow. Potential confounding factors included maternal age, parity, prepregnancy body mass index, gestational weight gain, gestational age at birth, infant sex, postnatal age at dual energy X-ray absorptiometry scan, and mode of infant feeding.Results: Newborn body fat percentage was 13.5% ± 2.4% (mean ± standard error of the mean). Fetal liver blood flow at 30 weeks gestation was significantly and positively associated with newborn total fat mass (r=0.397; P<.001) and body fat percentage (r=0.369; P=.004), but not with lean mass (r=0.100; P=.441). After accounting for the effects of covariates, fetal liver blood flow explained 13.5% of the variance in newborn fat mass. The magnitude of this association was pronounced particularly in nonoverweight/nonobese mothers (prepregnancy body mass index, <25 kg/m2; n=36) in whom fetal liver blood flow explained 24.4% of the variation in newborn body fat percentage.Conclusion: Fetal liver blood flow at the beginning of the third trimester of gestation is associated positively with newborn adiposity, particularly among nonoverweight/nonobese mothers. This finding supports the role of fetal liver blood flow as a putative fetal adaptation underlying variation in adipose tissue accretion. [ABSTRACT FROM AUTHOR]

Published
2017
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40. 660: Maternal childhood trauma and cortisol during pregnancy.

Author

Buss, Claudia, Entringer, Sonja, Wadhwa, Pathik D., Adam, Emma, Culhane, Jennifer, Grobman, William, Kim, Kwang-Youn, Mathew, Leny, Simhan, Hyagriv, Williamson, Douglas, and Borders, Ann

Subjects
HYDROCORTISONE, PREGNANCY, CHILDREN'S injuries, HEALTH outcome assessment, MEDICAL research
Published
2016
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41. Maternal psychosocial stress during pregnancy is associated with newborn leukocyte telomere length.

Author

Entringer, Sonja, Epel, Elissa S., Lin, Jue, Buss, Claudia, Shahbaba, Babak, Blackburn, Elizabeth H., Simhan, Hyagriv N., and Wadhwa, Pathik D.

Subjects
PREGNANCY complications, PSYCHOLOGICAL stress, LEUCOCYTES, TELOMERES, NEONATAL diseases, AGE factors in disease, OBSTETRICS, GESTATIONAL age
Abstract

Objective: In adults, one of the major determinants of leukocyte telomere length (LTL), a predictor of age-related diseases and mortality, is cumulative psychosocial stress exposure. More recently we reported that exposure to maternal psychosocial stress during intrauterine life is associated with LTL in young adulthood. The objective of the present study was to determine how early in life this effect of stress on LTL is apparent by quantifying the association of maternal psychosocial stress during pregnancy with newborn telomere length. Study Design: In a prospective study of N = 27 mother-newborn dyads maternal pregnancy-specific stress was assessed in early gestation and cord blood peripheral blood mononuclear cells were subsequently collected and analyzed for LTL measurement. Results: After accounting for the effects of potential determinants of newborn LTL (gestational age at birth, weight, sex, and exposure to antepartum obstetric complications), there was a significant, independent, linear effect of pregnancy-specific stress on newborn LTL that accounted for 25% of the variance in adjusted LTL (β = −0.099; P = .04). Conclusion: Our finding provides the first preliminary evidence in human beings that maternal psychological stress during pregnancy may exert a “programming” effect on the developing telomere biology system that is already apparent at birth, as reflected by the setting of newborn LTL. [ABSTRACT FROM AUTHOR]

Published
2013
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42. The association between early life adversity and bacterial vaginosis during pregnancy.

Author

Cammack, Alison L., Buss, Claudia, Entringer, Sonja, Hogue, Carol J., Hobel, Calvin J., and Wadhwa, Pathik D.

Subjects
BACTERIAL vaginitis, DURATION of pregnancy, CHILD sexual abuse, SOCIOECONOMIC factors, PSYCHOSOCIAL factors, PSYCHOLOGICAL stress, LOGISTIC regression analysis, COHORT analysis
Abstract

Objective: The purpose of this study was to examine associations between chronic preconception psychosocial and socioeconomic stress with bacterial vaginosis (BV) during pregnancy. Study Design: Using univariate and multivariate logistic regression, childhood abuse and neglect, chronic discrimination, childhood socioeconomic status, potential confounders, and BV were assessed at 14-16 and 19-22 weeks'' gestation in a cohort of 312 pregnant women. Results: Persistent BV (BV positive at both time points vs no BV at either time point) was associated with childhood sexual abuse (CSA), chronic discrimination, and lack of parental home ownership. These associations were still present after covarying for current perceived stress, socioeconomic status, and other potential confounders. Conclusion: There is evidence that BV during pregnancy is independently linked with early life psychosocial adversity, suggesting that a life-course perspective may be important in elucidating determinants of perinatal outcomes. [Copyright &y& Elsevier]

Published
2011
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43. The maternal cortisol awakening response in human pregnancy is associated with the length of gestation.

Author

Buss, Claudia, Entringer, Sonja, Reyes, Jonazary F., Chicz-DeMet, Aleksandra, Sandman, Curt A., Waffarn, Feizal, and Wadhwa, Pathik D.

Subjects
HYDROCORTISONE, PREGNANT women, GESTATIONAL age, HYPOTHALAMIC-pituitary-adrenal axis, LONGITUDINAL method, BIOMARKERS, PREMATURE labor
Abstract

Objective: The purpose of this study was to examine the relationship between intraindividual changes in cortisol responsiveness over pregnancy and the length of human gestation. Study Design: Pregnancy-related changes in the cortisol awakening response (CAR), which is a measure of hypothalamic-pituitary-adrenal axis responsiveness, were assessed prospectively in 101 pregnant women at 16.8 ± 1.4 weeks'' and 31.4 ± 1.3 weeks'' (±SD) gestation. Cortisol was measured in saliva that was collected immediately and +30, +45 and +60 minutes after awakening. Results: The CAR was significant in pregnancy and exhibited progressive attenuation over the course of gestation. A larger CAR in late pregnancy and reduced attenuation of the CAR from early to late gestation were associated significantly with shorter gestational length. Conclusion: The findings are the first to suggest that the hormonal (cortisol) response to a naturally occurring challenge (awakening) and the degree of attenuation of this response over the course of gestation may represent a novel biomarker of increased vulnerability for earlier birth. [Copyright &y& Elsevier]

Published
2009
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45. Prenatal psychosocial stress exposure is associated with insulin resistance in young adults.

Author

Entringer, Sonja, Wüst, Stefan, Kumsta, Robert, Layes, Irmgard M., Nelson, Edward L., Hellhammer, Dirk H., and Wadhwa, Pathik D.

Subjects
PREGNANCY & psychology, PSYCHOLOGICAL stress, INSULIN resistance, C-peptide, PSYCHOSOCIAL factors, BIRTH weight, GESTATIONAL age, BODY mass index
Abstract

Objective: The objective of the study was to examine the association in humans between maternal psychosocial stress exposure during pregnancy and measures of glucose-insulin metabolism in the adult offspring. Study Design: Healthy young adults whose mothers experienced major stressful life events during their pregnancy (n = 36, prenatal stress, PS group, mean age 25 ± 5.14 [SD] years) and a comparison group (n = 22, CG, mean age 24 ± 3.7 [SD] years) underwent an oral glucose tolerance test. Results: Glucose levels were not significantly different across the groups; however, prenatally stressed subjects showed significantly elevated 2-hour insulin (P = .01) and C-peptide levels (P = .03). These differences were independent of other major risk factors for insulin resistance, including birth phenotype (birthweight, length of gestation), a family history of diabetes, gestational diabetes, body mass index, proinflammatory state, and smoking. Conclusion: Higher insulin responses reflect relative insulin resistance in these prenatally stressed young adults. This study is the first to provide evidence for a link in humans between prenatal psychosocial stress exposure and alterations in glucose-insulin metabolic function. [Copyright &y& Elsevier]

Published
2008
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48. Prenatal programming of newborn and infant telomere length

Author

Entringer, Sonja, Epel, Elissa S., Lin, Jue, Buss, Claudia, Blackburn, Elizabeth H., Simhan, Hyagriv N., and Wadhwa, Pathik D.

Abstract

Rationale / statement of the problem: Substantial evidence suggests conditions in intrauterine life may play a critical role in subsequent health and disease susceptibility related outcomes (i.e., the concept of fetal or developmental programming of health and disease). The elucidation of biological mechanisms underlying these effects is an area of active investigation. We suggest that telomere biology may represent a novel mechanism underlying the effects of a disparate set of suboptimal intrauterine exposures on various health and disease risk phenotypes. From an evolutionary-developmental perspective, energy substrate availability (i.e., nutrition) and challenges that have the potential to impact the structural or functional integrity and survival of the organism (i.e., stress) likely represent the most important environmental considerations underlying natural selection and developmental plasticity. Maternal stress and nutrition in pregnancy therefore represent attractive candidate processes in the context of fetal programming of telomere biology. Our previous work has established an important role for prenatal stress and stress-related processes in adult telomere biologyMethods: In two longitudinal birth cohorts, stress- and nutrition-related processes were assessed during pregnancy and telomere length (TL) was subsequently measured in newborns (cord blood) and infants (buccal cells).Results: (1) Among the nutrition-related factors, maternal lower folate levels (an essential methyl donor) and higher triglyceride concentrations in early pregnancy were significantly and independently associated with shorter newborn TL. (2) Among psychosocial stress-related measures, higher maternal pregnancy-specific stress was associated with shorter newborn TL. (3) Maternal estrogen (E3) levels during early pregnancy were associated with longer infant TL.Conclusion: Taken together, our findings provide the first evidence in humans that maternal nutrition and stress-related processes during pregnancy may exert a programming effect on the newborn and infant telomere biology system. In uterotelomere biology represents a potential molecular mechanism whereby different exposures in this critical developmental period beforebirth could impact subsequent health and disease susceptibility related outcomes over the life span, including aging and longevity

Published
2012
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