Results 31 to 40 of about 2,584 (204)
Epigenetic signatures of internal migration in Italy. [PDF]
, 2015 Observational studies have suggested that the risks of non-communicable diseases in voluntary migrants become similar to those in the host population after one or more generations, supporting the hypothesis that these diseases have a predominantly ...Campanella, G, Chadeau-Hyam, M, Di Gaetano, C, Elliott, P, Fiorito, G, Guarrera, S, Krogh, V, Matullo, G, Palli, D, Panico, S, Polidoro, S, Sacerdote, C, Tumino, R, Vineis, P +13 morecore +4 more sourcesData mashups: potential contribution to decision support on climate change and health. [PDF]
, 2014 notes: PMCID: PMC3945564This is a freely-available open access publication. Please cite the published version which is available via the DOI link in this record.Linking environmental, socioeconomic and health datasets provides new insights into the ...Andy Haines, Anna Cichowska, Anthony Kessel, Brian Golding, Ceri Whitmore, Charron, Christophe Sarran, Clive Sabel, Daniel Bloomfield, Hajat, Hajat, Hajat, Hoagland, Last, Lora Fleming, Mayer-Schönberger, McMichael, Michael Depledge, Nicholas Osborne, Nicola Cocksedge, Raynor, Silver, Wilby, Zaias +23 morecore +4 more sourcesExposome in human health: Utopia or wonderland?
The Innovation, 2021 Summary: The current human exposome primarily emphasizes the total environmental exposure during an entire life. The characteristics of “lifelong” and “all environmental factors” make it very challenging to bring the exposomic study into real-life ...Mingliang Fang, Ligang Hu, Da Chen, Yuming Guo, Jianmeng Liu, Changxin Lan, Jicheng Gong, Bin Wang +7 moredoaj +1 more sourcePrenatal exposures and exposomics of asthma [PDF]
, 2015 This review examines the causal investigation of preclinical development of childhood asthma using exposomic tools. We examine the current state of knowledge regarding early-life exposure to non-biogenic indoor air pollution and the developmental ...Adamko DJ, Sykes BD, Rowe BH, Allakhverdi Z, Comeau MR, Smith DE, et al., Ankley GT, Bennett RS, Erickson RJ, et al., Asher M, Keil U, Anderson H, et al., Asher MI, Montefort S, Björkstén B, et al., Barrett JS, Della Casa Alberighi O, Laer S, et al, Besnard A-G, Togbe D, Couillin I, et al., Bilbo SD, Bilbo SD, Schwarz JM, Bjorkman S, Borish L, Culp JA, Bornehag CG, Blomquist G, Gyntelberg F, et al., Bornehag CG, Sundell J, Weschler CJ, et al., Bozzetto S, Carraro S, Giordano G, et al., Bradding P, Walls AF, Holgate ST, Brightling CE, Bradding P, Symon FA, et al., Brim SN, Rudd RA, Funk RH, et al., Brunekreef B, Bryant-Stephens T, Burke H, Leonardi-Bee J, Hashim A, et al., Busse PJ, Wang JJ, Halm EA, Busse W, Banks-Schlegel S, Noel P, et al., Bönisch U, Böhme A, Kohajda T, et al., Carraro S, Rezzi S, Reniero F, et al., Cayrol C, Girard J-P, Chaouiya C, Choi H, Schmidbauer N, Sundell J, et al., Cory-Slechta DA, Virgolini MB, Rossi-George A, et, Couraud S, Zalcman G, Milleron B, et al., Ege MJ, Mayer M, Normand A-C, et al., Ernstgård L, Lof A, Wieslander G, et al., Fang L, Clausen G, Fanger PO, Fanos V, Barberini L, Antonucci R, et al., Forsythe P, Ennis M, Fujimoto A, Tsukue N, Watanabe M, et al., Goliff WS, Fitz DR, Cocker K, et al., Griffiths WJ, Koal T, Wang Y, et al., Hansel TT, Johnston SL, Openshaw PJ, Hartung T, van Vliet E, Jaworska J, et al., Heinrich J, Herberth G, Heinrich J, Röder S, et al., Herberth G, Hinz D, Roder S, et al., Ho S-M, Ho WE, Xu Y-J, Xu F, et al., Holmes E, Loo R, Stamler J, et al., Jaakkola JJ, Jaakkola MS, Janssen B, Godderis L, Pieters N, et al., Janssen B, Munters E, Pieters N, et al., Janssen BG, Munters E, Pieters N, et al., Jaworska J, Gabbert S, Aldenberg T, Jedrychowski WA, Perera FP, Majewska R, et al., Järnström H, Saarela K, Kalliokoski P, et al., Kamble S, Bharmal M, Kempf M, Ramm S, Feuerbach T, et al., Kim JL, Elfman L, Mi Y, et al., Kimber I, Dearman RJ, Basketter DA, et al., Kind T, Fiehn O, Kitano H, Kleeberger SR, Ohtsuka Y, Zhang L-Y, et al., Koike Y, Hisada T, Utsugi M, et al., Koren HS, Hatch GE, Graham DE, Korpi A, Järnberg J, Pasanen A-L, Kozlowska E, Krzystyniak K, Drela N, et al., Krüger T, Long M, Bonefeld-Jørgensen EC, Kuipers H, Lambrecht BN, Larsson M, Weiss B, Janson S, et al., Lee PC, Roberts JM, Catov JM, et al., Lehmann I, Thoelke A, Rehwagen M, et al., Lehmann I, Thoelke A, Weiss M, et al., Lewis R, Demmelmair H, Gaillard R, et al., Lu L-JW, Anderson LM, Jones AB, et al., Maddalena R, Russell M, Sullivan DP, et al., Maitre L, Fthenou E, Athersuch T, et al., Mandal M, Donnelly R, Elkabes S, et al., Mansbach JM, Ginde AA, Camargo CA, Masoli M, Fabian D, Holt S, et al., Mattarucchi E, Baraldi E, Guillou C, Mc Auley MT, Wilkinson DJ, Jones JJ, et al., Mendell MJ, Mills KH, Dungan LS, Jones SA, et al., Murata Y, Shimamura T, Hamuro J, Nalli S, Horn OJ, Grochowalski AR, et al., Nicholson JK, Holmes E, Wilson ID, Nicholson JK, Wilson ID, Ober C, Hoffjan S, Pacifico L, Osborn JF, Tromba V, et al., Patel MM, Quinn JW, Jung KH, et al., Peachell P, Perzanowski MS, Miller RL, Tang D, et al., Peterson JD, Herzenberg LA, Vasquez K, et al., Prahalad A, Manchester D, Hsu I, et al., Préfontaine D, Lajoie-Kadoch S, Foley S, et al., Raherison C, Pénard-Morand C, Moreau D, et al., Rappaport SM, Rappaport SM, Rappaport SM, Smith MT, Reibman J, Marmor M, Filner J, et al., Rocha e Silva IR, Lichtenfels AJF, Amador Pereira, Ruiz P, Ray M, Fisher J, et al., Samet JM, Spengler JD, Schierhorn K, Zhang M, Matthias C, et al., Senn T, Hazen SL, Tang W, Shields RL, Gold WM, Sly PD, Boner AL, Björksten B, et al., Smith MT, Zhang L, McHale CM, et al., Spanier AJ, Kahn RS, Kunselman AR, et al., Stenfors N, Bosson J, Helleday R, et al., Stenfors N, Pourazar J, Blomberg A, et al., Stockinger B, Meglio PD, Gialitakis M, et al., Tan YM, Conolly R, Chang DT, et al., Thacher JD, Gruzieva O, Pershagen G, et al., Topinka J, Binkova B, Mračková G, et al., Torgerson DG, Ampleford EJ, Chiu GY, et al., Tsai W, Chung R, Vagaggini B, Taccola M, Conti I, et al., Veras MM, Damaceno-Rodrigues NR, Caldini EG, et a, Vineis P, Veldhoven K, Chadeau‐Hyam M, et al., Vinken M, Vinks AA, Wang L, Pinkerton KE, Weschler CJ, Wieslander G, Kumlin A, Norback D, Wieslander G, Lindgren T, Norback D, et al., Wieslander G, Norback D, Wieslander G, Norback D, Wieslander G, Norback D, Edling C, Wieslander G, Norback D, Edling C, Wieslander G, Norback D, Nordstrom K, et al., Wigle DT, Arbuckle TE, Walker M, et al., Wild CP, Wilkinson DJ, Wittig U, Rey M, Kania R, et al., Wolkoff P, Schneider T, Kildesø J, et al., Woo Y, Jeong D, Chung DH, et al., Yang IV, Schwartz DA, Yang Y, Cruickshank C, Armstrong M, et al., Zittermann A, Dembinski J, Stehle P, Zock JP, Plana E, Jarvis D, et al. +137 morecore +2 more sourcesAssessing the Potential of Untargeted SWATH Mass Spectrometry-Based Metabolomics to Differentiate Closely Related Exposures in Observational Studies
Metabolites, 2022 Mass spectrometry (MS) is increasingly used in clinical studies to obtain molecular evidence of chemical exposures, such as tobacco smoke, alcohol, and drugs.Frank Klont, Piotr Sosnowski, Daan Kremer, Tim J. Knobbe, Ron Bonner, Hans Blokzijl, Rinse K. Weersma, Stephan J. L. Bakker, TransplantLines Investigators, Eelko Hak, Daan J. Touw, Gérard Hopfgartner +11 moredoaj +1 more sourceForecasting in the light of Big Data [PDF]
, 2017 Predicting the future state of a system has always been a natural motivation
for science and practical applications. Such a topic, beyond its obvious
technical and societal relevance, is also interesting from a conceptual point
of view.A Dahan Dalmedico, CS Calude, D Casacuberta, D Lazer, E Nowotny, F Cecconi, G Parisi, H Poincaré, J Saunders, JP Crutchfield, L Onsager, LF Richardson, M Kac, P Collet, PV Coveney, R Kitchin, S Canali, S Chibbaro, S Leonelli, SK Ma, V Mayer-Schönberger +20 morecore +2 more sources
