Jane E Williams
UCL Institute of Child Health
31 Papers
380 Citations
Jane E Williams is an academic researcher from UCL Institute of Child Health. The author has contributed to research in topics: Medicine & Body mass index. The author has an hindex of 18, co-authored 28 publications. Previous affiliations of Jane E Williams include University of London & Great Ormond Street Hospital.
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Papers
Mutations in the selenocysteine insertion sequence–binding protein 2 gene lead to a multisystem selenoprotein deficiency disorder in humans
Erik Schoenmakers,Maura Agostini,Catherine Mitchell,Nadia Schoenmakers,L. Papp,Odelia Rajanayagam,Raja Padidela,Lourdes Ceron-Gutierrez,Rainer Doffinger,Claudia Prevosto,Jian'an Luan,Sergio J. Montano,Jun Lu,Mireille Castanet,Nicholas J. Clemons,Matthijs P. Groeneveld,Perrine Castets,Mahsa Karbaschi,Sri Aitken,Adrian K. Dixon,Jane E Williams,Irene Campi,Margaret Blount,Hannah Burton,Francesco Muntoni,Dominic G. O’Donovan,Andrew Dean,Anne Y. Warren,Charlotte K. Brierley,David M. Baguley,Pascale Guicheney,Rebecca C. Fitzgerald,Alasdair Coles,Hill Gaston,P. Todd,Arne Holmgren,Kum Kum Khanna,Marcus S. Cooke,Robert K. Semple,David Halsall,Nicholas J. Wareham,John W.R. Schwabe,Lucia Grasso,Paolo Beck-Peccoz,Arthur Ogunko,Mehul T. Dattani,Mark Gurnell,V. Krishna K. Chatterjee +47 more
TL;DR: Mutation of SECISBP2 is associated with a multisystem disorder with defective biosynthesis of many selenoproteins, highlighting their role in diverse biological processes.
Infant growth and later body composition: evidence from the 4-component model
TL;DR: In this Western population, greater relative weight gain during early infancy was positively associated with later FM and central fat distribution and with FFM, suggesting rapid weight gain in infancy may be a risk factor for later adiposity.
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Body composition in normal weight, overweight and obese children: matched case-control analyses of total and regional tissue masses, and body composition trends in relation to relative weight.
TL;DR: The greater weight of obese children is due to excess FFM including mineral as well as excess fatness, which has a strong continuous relationship with increasing FM across the whole spectrum of weight.
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Validation of BIA in obese children and adolescents and re-evaluation in a longitudinal study.
Dalia Haroun,Helen Croker,Russell M Viner,Jane E Williams,Tegan Darch,Mary Fewtrell,Simon Eaton,Jonathan C. K. Wells +7 more
TL;DR: The derived BIA equation, shown to be reliable for longitudinal assessment in white obese children, will aid routine clinical monitoring of body composition in this population.
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