9 results on '"Maitre, Léa"'
Search Results
2. Environmental exposures in early-life and general health in childhood
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Amine, Ines, Guillien, Alicia, Philippat, Claire, Anguita-Ruiz, Augusto, Casas, Maribel, de Castro, Montserrat, Dedele, Audrius, Garcia-Aymerich, Judith, Granum, Berit, Grazuleviciene, Regina, Heude, Barbara, Haug, Line Småstuen, Julvez, Jordi, López-Vicente, Mónica, Maitre, Léa, McEachan, Rosemary, Nieuwenhuijsen, Mark, Stratakis, Nikos, Vafeiadi, Marina, Wright, John, Yang, Tiffany, Yuan, Wen Lun, Basagaña, Xavier, Slama, Rémy, Vrijheid, Martine, and Siroux, Valérie
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- 2023
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3. Prenatal environmental exposures associated with sex differences in childhood obesity and neurodevelopment
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Cáceres, Alejandro, Carreras-Gallo, Natàlia, Andrusaityte, Sandra, Bustamante, Mariona, Carracedo, Ángel, Chatzi, Leda, Dwaraka, Varun B., Grazuleviciene, Regina, Gutzkow, Kristine Bjerve, Lepeule, Johanna, Maitre, Léa, Mendez, Tavis L., Nieuwenhuijsen, Mark, Slama, Remy, Smith, Ryan, Stratakis, Nikos, Thomsen, Cathrine, Urquiza, Jose, Went, Hannah, Wright, John, Yang, Tiffany, Casas, Maribel, Vrijheid, Martine, and González, Juan R.
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- 2023
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4. Variability of multi-omics profiles in a population-based child cohort
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Gallego-Paüls, Marta, Hernández-Ferrer, Carles, Bustamante, Mariona, Basagaña, Xavier, Barrera-Gómez, Jose, Lau, Chung-Ho E., Siskos, Alexandros P., Vives-Usano, Marta, Ruiz-Arenas, Carlos, Wright, John, Slama, Remy, Heude, Barbara, Casas, Maribel, Grazuleviciene, Regina, Chatzi, Leda, Borràs, Eva, Sabidó, Eduard, Carracedo, Ángel, Estivill, Xavier, Urquiza, Jose, Coen, Muireann, Keun, Hector C., González, Juan R., Vrijheid, Martine, and Maitre, Léa
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- 2021
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5. In utero and childhood exposure to tobacco smoke and multi-layer molecular signatures in children
- Author
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Vives-Usano, Marta, Hernandez-Ferrer, Carles, Maitre, Léa, Ruiz-Arenas, Carlos, Andrusaityte, Sandra, Borràs, Eva, Carracedo, Ángel, Casas, Maribel, Chatzi, Leda, Coen, Muireann, Estivill, Xavier, González, Juan R., Grazuleviciene, Regina, Gutzkow, Kristine B., Keun, Hector C., Lau, Chung-Ho E., Cadiou, Solène, Lepeule, Johanna, Mason, Dan, Quintela, Inés, Robinson, Oliver, Sabidó, Eduard, Santorelli, Gillian, Schwarze, Per E., Siskos, Alexandros P., Slama, Rémy, Vafeiadi, Marina, Martí, Eulàlia, Vrijheid, Martine, and Bustamante, Mariona
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- 2020
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6. Maternal urinary metabolic signatures of fetal growth and associated clinical and environmental factors in the INMA study.
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Maitre, Léa, Villanueva, Cristina M., Lewis, Matthew R., Ibarluzea, Jesús, Santa-Marina, Loreto, Vrijheid, Martine, Sunyer, Jordi, Coen, Muireann, and Toledano, Mireille B.
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METABOLISM in pregnancy , *URINARY organ diseases , *FETAL development , *METABOLIC disorders , *DEVELOPMENTAL biology - Abstract
Background: Maternal metabolism during pregnancy is a major determinant of the intra-uterine environment and fetal outcomes. Herein, we characterize the maternal urinary metabolome throughout pregnancy to identify maternal metabolic signatures of fetal growth in two subcohorts and explain potential sources of variation in metabolic profiles based on lifestyle and clinical data. Methods: We used 1H nuclear magnetic resonance (NMR) spectroscopy to characterize maternal urine samples collected in the INMA birth cohort at the first (n = 412 and n = 394, respectively, in Gipuzkoa and Sabadell cohorts) and third trimesters of gestation (n = 417 and 469). Metabolic phenotypes that reflected longitudinal intra- and inter-individual variation were used to predict measures of fetal growth and birth weight. Results: A metabolic shift between the first and third trimesters of gestation was characterized by 1H NMR signals arising predominantly from steroid by-products. We identified 10 significant and reproducible metabolic associations in the third trimester with estimated fetal, birth, and placental weight in two independent subcohorts. These included branched-chain amino acids; isoleucine, valine, leucine, alanine and 3 hydroxyisobutyrate (metabolite of valine), which were associated with a significant fetal weight increase at week 34 of up to 2.4 % in Gipuzkoa (P < 0.005) and 1 % in Sabadell (P < 0.05). Other metabolites included pregnancy-related hormone by-products of estrogens and progesterone, and the methyl donor choline. We could explain a total of 48-53 % of the total variance in birth weight of which urine metabolites had an independent predictive power of 12 % adjusting for all other lifestyle/clinical factors. First trimester metabolic phenotypes could not predict reproducibly weight at later stages of development. Physical activity, as well as other modifiable lifestyle/clinical factors, such as coffee consumption, vitamin D intake, and smoking, were identified as potential sources of metabolic variation during pregnancy. Conclusions: Significant reproducible maternal urinary metabolic signatures of fetal growth and birth weight are identified for the first time and linked to modifiable lifestyle factors. This novel approach to prenatal screening, combining multiple risk factors, present a great opportunity to personalize pregnancy management and reduce newborn disease risk in later life. [ABSTRACT FROM AUTHOR]
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- 2016
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7. Urinary metabolic profiles in early pregnancy are associated with preterm birth and fetal growth restriction in the Rhea mother–child cohort study.
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Maitre, Léa, Fthenou, Eleni, Athersuch, Toby, Coen, Muireann, Toledano, Mireille B., Holmes, Elaine, Kogevinas, Manolis, Chatzi, Leda, and Keun, Hector C.
- Abstract
Background: Preterm birth (PB) and fetal growth restriction (FGR) convey the highest risk of perinatal mortality and morbidity, as well as increasing the chance of developing chronic disease in later life. Identifying early in pregnancy the unfavourable maternal conditions that can predict poor birth outcomes could help their prevention and management. Here we used an exploratory metabolic profiling approach (metabolomics) to investigate the association between birth outcomes and metabolites in maternal urine collected early in pregnancy as part of the prospective mother–child cohort Rhea study. Metabolomic techniques can simultaneously capture information about genotype and its interaction with the accumulated exposures experienced by an individual from their diet, environment, physical activity or disease (the exposome). As metabolic syndrome has previously been shown to be associated with PB in this cohort, we sought to gain further insight into PB-linked metabolic phenotypes and to define new predictive biomarkers. Methods: Our study was a case–control study nested within the Rhea cohort. Major metabolites (n = 34) in maternal urine samples collected at the end of the first trimester (n = 438) were measured using proton nuclear magnetic resonance spectroscopy. In addition to PB, we used FGR in weight and small for gestational age as study endpoints. Results: We observed significant associations between FGR and decreased urinary acetate (interquartile odds ratio (IOR) = 0.18 CI 0.04 to 0.60), formate (IOR = 0.24 CI 0.07 to 0.71), tyrosine (IOR = 0.27 CI 0.08 to 0.81) and trimethylamine (IOR = 0.14 CI 0.04 to 0.40) adjusting for maternal education, maternal age, parity, and smoking during pregnancy. These metabolites were inversely correlated with blood insulin. Women with clinically induced PB (IPB) had a significant increase in a glycoprotein N-acetyl resonance (IOR = 5.84 CI 1.44 to 39.50). This resonance was positively correlated with body mass index, and stratified analysis confirmed that N-acetyl glycoprotein and IPB were significantly associated in overweight and obese women only. Spontaneous PB cases were associated with elevated urinary lysine (IOR = 2.79 CI 1.20 to 6.98) and lower formate levels (IOR = 0.42 CI 0.19 to 0.94). Conclusions: Urinary metabolites measured at the end of the first trimester are associated with increased risk of negative birth outcomes, and provide novel information about the possible mechanisms leading to adverse pregnancies in the Rhea cohort. This study emphasizes the potential of metabolic profiling of urine as a means to identify novel non-invasive biomarkers of PB and FGR risk. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
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8. Determinants of the urinary and serum metabolome in children from six European populations.
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Lau, Chung-Ho E., Siskos, Alexandros P., Maitre, Léa, Robinson, Oliver, Athersuch, Toby J., Want, Elizabeth J., Urquiza, Jose, Casas, Maribel, Vafeiadi, Marina, Roumeliotaki, Theano, McEachan, Rosemary R. C., Azad, Rafaq, Haug, Line S., Meltzer, Helle M., Andrusaityte, Sandra, Petraviciene, Inga, Grazuleviciene, Regina, Thomsen, Cathrine, Wright, John, and Slama, Remy
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BLADDER abnormalities ,METABOLOMICS ,SERUM sickness ,NUCLEAR magnetic resonance ,BODY mass index - Abstract
Background: Environment and diet in early life can affect development and health throughout the life course. Metabolic phenotyping of urine and serum represents a complementary systems-wide approach to elucidate environment-health interactions. However, large-scale metabolome studies in children combining analyses of these biological fluids are lacking. Here, we sought to characterise the major determinants of the child metabolome and to define metabolite associations with age, sex, BMI and dietary habits in European children, by exploiting a unique biobank established as part of the Human Early-Life Exposome project ( http://www.projecthelix.eu ).Methods: Metabolic phenotypes of matched urine and serum samples from 1192 children (aged 6-11) recruited from birth cohorts in six European countries were measured using high-throughput 1H nuclear magnetic resonance (NMR) spectroscopy and a targeted LC-MS/MS metabolomic assay (Biocrates AbsoluteIDQ p180 kit).Results: We identified both urinary and serum creatinine to be positively associated with age. Metabolic associations to BMI z-score included a novel association with urinary 4-deoxyerythreonic acid in addition to valine, serum carnitine, short-chain acylcarnitines (C3, C5), glutamate, BCAAs, lysophosphatidylcholines (lysoPC a C14:0, lysoPC a C16:1, lysoPC a C18:1, lysoPC a C18:2) and sphingolipids (SM C16:0, SM C16:1, SM C18:1). Dietary-metabolite associations included urinary creatine and serum phosphatidylcholines (4) with meat intake, serum phosphatidylcholines (12) with fish, urinary hippurate with vegetables, and urinary proline betaine and hippurate with fruit intake. Population-specific variance (age, sex, BMI, ethnicity, dietary and country of origin) was better captured in the serum than in the urine profile; these factors explained a median of 9.0% variance amongst serum metabolites versus a median of 5.1% amongst urinary metabolites. Metabolic pathway correlations were identified, and concentrations of corresponding metabolites were significantly correlated (r > 0.18) between urine and serum.Conclusions: We have established a pan-European reference metabolome for urine and serum of healthy children and gathered critical resources not previously available for future investigations into the influence of the metabolome on child health. The six European cohort populations studied share common metabolic associations with age, sex, BMI z-score and main dietary habits. Furthermore, we have identified a novel metabolic association between threonine catabolism and BMI of children. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
9. Determinants of the urinary and serum metabolome in children from six European populations
- Author
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Lau, Chung-Ho E., Maitre, Léa, Urquiza, José M., Casas Sanahuja, Maribel, Vrijheid, Martine, and Coen, Muireann
- Subjects
Birth cohorts ,NMR spectroscopy ,Metabolic phenotyping ,Epidemiology ,Metabonomics ,Paediatrics ,Exposome metabolomics ,Metabolic profile ,European children ,LC-MS - Abstract
Background: Environment and diet in early life can affect development and health throughout the life course. Metabolic phenotyping of urine and serum represents a complementary systems-wide approach to elucidate environment-health interactions. However, large-scale metabolome studies in children combining analyses of these biological fluids are lacking. Here, we sought to characterise the major determinants of the child metabolome and to define metabolite associations with age, sex, BMI and dietary habits in European children, by exploiting a unique biobank established as part of the Human Early-Life Exposome project ( http://www.projecthelix.eu ). Methods: Metabolic phenotypes of matched urine and serum samples from 1192 children (aged 6-11) recruited from birth cohorts in six European countries were measured using high-throughput 1H nuclear magnetic resonance (NMR) spectroscopy and a targeted LC-MS/MS metabolomic assay (Biocrates AbsoluteIDQ p180 kit). Results: We identified both urinary and serum creatinine to be positively associated with age. Metabolic associations to BMI z-score included a novel association with urinary 4-deoxyerythreonic acid in addition to valine, serum carnitine, short-chain acylcarnitines (C3, C5), glutamate, BCAAs, lysophosphatidylcholines (lysoPC a C14:0, lysoPC a C16:1, lysoPC a C18:1, lysoPC a C18:2) and sphingolipids (SM C16:0, SM C16:1, SM C18:1). Dietary-metabolite associations included urinary creatine and serum phosphatidylcholines (4) with meat intake, serum phosphatidylcholines (12) with fish, urinary hippurate with vegetables, and urinary proline betaine and hippurate with fruit intake. Population-specific variance (age, sex, BMI, ethnicity, dietary and country of origin) was better captured in the serum than in the urine profile; these factors explained a median of 9.0% variance amongst serum metabolites versus a median of 5.1% amongst urinary metabolites. Metabolic pathway correlations were identified, and concentrations of corresponding metabolites were significantly correlated (r > 0.18) between urine and serum. Conclusions: We have established a pan-European reference metabolome for urine and serum of healthy children and gathered critical resources not previously available for future investigations into the influence of the metabolome on child health. The six European cohort populations studied share common metabolic associations with age, sex, BMI z-score and main dietary habits. Furthermore, we have identified a novel metabolic association between threonine catabolism and BMI of children. This research received funding from the EU European Commission’s Seventh Framework Programme (FP7/2007–2013) under grant agreement no. 308333—the HELIX project. We would like to thank all the study participants and the full list of the HELIX Project Investigators that can be found at http://www.projecthelix.eu. The Norwegian Mother and Child Cohort Study is supported by the Norwegian Ministry of Health and Care Services and the Ministry of Education and Research, NIH/NIEHS (contract no. N01-ES-75558), NIH/NINDS (grant no. 1 UO1 NS 047537-01 and grant no. 2 UO1 NS 047537-06A1). Dr. Maribel Casas received funding from Instituto de Salud Carlos III (Ministry of Economy and Competitiveness) (MS16/00128).
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